This is slime.info, produced by makeinfo version 6.5 from slime.texi.

Written by Luke Gorrie and others.

   This file has been placed in the public domain.
INFO-DIR-SECTION Emacs
START-INFO-DIR-ENTRY
* SLIME: (slime).    Superior Lisp Interaction Mode for Emacs.
END-INFO-DIR-ENTRY


File: slime.info,  Node: Top,  Next: Introduction,  Up: (dir)

SLIME
*****

SLIME is the “Superior Lisp Interaction Mode for Emacs”.  This is the
manual for version 2.24.  (Last updated August 15, 2020)

   Written by Luke Gorrie and others.

   This file has been placed in the public domain.

* Menu:

* Introduction::
* Getting started::
* SLIME mode::
* Debugger::
* Misc::
* Customization::
* Tips and Tricks::
* Contributed Packages::
* Credits::
* Key Index::
* Command Index::
* Variable Index::

 — The Detailed Node Listing —

Getting started

* Platforms::
* Downloading::
* Installation::
* Running::
* Setup Tuning::

Downloading SLIME

* Git::
* Git Incantations::

Setup Tuning

* Basic customization::
* Multiple Lisps::
* Loading Swank faster::

Using SLIME mode

* User-interface conventions::
* Evaluation::
* Compilation::
* Completion::
* Finding definitions::
* Documentation::
* Cross-reference::
* Macro-expansion::
* Disassembly::
* Recovery::
* Inspector::
* Profiling::
* Other::
* Semantic indentation::
* Reader conditionals::

User-interface conventions

* Temporary buffers::
* Inferior-lisp::
* Multithreading::
* Key bindings::

SLDB: the SLIME debugger

* Examining frames::
* Restarts::
* Frame Navigation::
* Stepping::
* Miscellaneous::

Misc

* slime-selector::
* slime-macroexpansion-minor-mode::
* Multiple connections::

Customization

* Emacs-side customization::
* Lisp-side::

Emacs-side

* Hooks::

Lisp-side (Swank)

* Communication style::
* Other configurables::

Tips and Tricks

* Connecting to a remote lisp::
* Global IO Redirection::
* Auto-SLIME::

Connecting to a remote lisp

* Setting up the lisp image::
* Setting up Emacs::
* Setting up pathname translations::

Contributed Packages

* Loading Contribs::
* REPL::
* slime-mrepl::
* inferior-slime-mode::
* Compound Completion::
* Fuzzy Completion::
* slime-autodoc-mode::
* ASDF::
* Banner::
* Editing Commands::
* Fancy Inspector::
* Presentations::
* Typeout frames::
* TRAMP::
* Documentation Links::
* Xref and Class Browser::
* Highlight Edits::
* Scratch Buffer::
* SLIME Trace Dialog::
* slime-sprof::
* slime-fancy::
* Quicklisp::

REPL: the “top level”

* REPL commands::
* Input Navigation::
* Shortcuts::



File: slime.info,  Node: Introduction,  Next: Getting started,  Prev: Top,  Up: Top

1 Introduction
**************

SLIME is the “Superior Lisp Interaction Mode for Emacs.”

   SLIME extends Emacs with support for interactive programming in
Common Lisp.  The features are centered around ‘slime-mode’, an Emacs
minor-mode that complements the standard ‘lisp-mode’.  While ‘lisp-mode’
supports editing Lisp source files, ‘slime-mode’ adds support for
interacting with a running Common Lisp process for compilation,
debugging, documentation lookup, and so on.

   The ‘slime-mode’ programming environment follows the example of
Emacs’s native Emacs Lisp environment.  We have also included good ideas
from similar systems (such as ILISP) and some new ideas of our own.

   SLIME is constructed from two parts: a user-interface written in
Emacs Lisp, and a supporting server program written in Common Lisp.  The
two sides are connected together with a socket and communicate using an
RPC-like protocol.

   The Lisp server is primarily written in portable Common Lisp.  The
required implementation-specific functionality is specified by a
well-defined interface and implemented separately for each Lisp
implementation.  This makes SLIME readily portable.


File: slime.info,  Node: Getting started,  Next: SLIME mode,  Prev: Introduction,  Up: Top

2 Getting started
*****************

This chapter tells you how to get SLIME up and running.

* Menu:

* Platforms::
* Downloading::
* Installation::
* Running::
* Setup Tuning::


File: slime.info,  Node: Platforms,  Next: Downloading,  Up: Getting started

2.1 Supported Platforms
=======================

SLIME supports a wide range of operating systems and Lisp
implementations.  SLIME runs on Unix systems, Mac OSX, and Microsoft
Windows.  GNU Emacs versions 24 and 23.4 are supported.  _XEmacs is not
supported anymore_.

   The supported Lisp implementations, roughly ordered from the
best-supported, are:

   • CMU Common Lisp (CMUCL), 19d or newer
   • Steel Bank Common Lisp (SBCL), 1.0 or newer
   • Clozure Common Lisp (CCL), version 1.3 or newer
   • LispWorks, version 4.3 or newer
   • Allegro Common Lisp (ACL), version 6 or newer
   • CLISP, version 2.35 or newer
   • Armed Bear Common Lisp (ABCL)
   • Corman Common Lisp, version 2.51 or newer with the patches from
     <http://www.grumblesmurf.org/lisp/corman-patches>)
   • Scieneer Common Lisp (SCL), version 1.2.7 or newer
   • Embedded Common Lisp (ECL)

   Most features work uniformly across implementations, but some are
prone to variation.  These include the precision of placing
compiler-note annotations, XREF support, and fancy debugger commands
(like “restart frame”).


File: slime.info,  Node: Downloading,  Next: Installation,  Prev: Platforms,  Up: Getting started

2.2 Downloading SLIME
=====================

You can choose between using a released version of SLIME or accessing
our Git repository directly.  You can download the latest released
version from our website:

   <http://github.com/slime/slime/>

   We recommend that users who participate in the ‘slime-devel’ mailing
list use the Git version of the code.

* Menu:

* Git::
* Git Incantations::


File: slime.info,  Node: Git,  Next: Git Incantations,  Up: Downloading

2.2.1 Downloading from Git
--------------------------

SLIME is available from the Git repository on ‘github.com’.  You have
the option to use either the very latest code or the tagged
‘FAIRLY-STABLE’ snapshot.

   The latest version tends to have more features and fewer bugs than
the ‘FAIRLY-STABLE’ version, but it can be unstable during times of
major surgery.  As a rule-of-thumb recommendation we suggest that if you
follow the ‘slime-devel’ mailing list then you’re better off with the
latest version (we’ll send a note when it’s undergoing major hacking).
If you don’t follow the mailing list you won’t know the status of the
latest code, so tracking ‘FAIRLY-STABLE’ or using a released version is
the safe option.

   If you download from Git then remember to ‘git pull’ occasionally.
Improvements are continually being committed, and the ‘FAIRLY-STABLE’
tag is moved forward from time to time.


File: slime.info,  Node: Git Incantations,  Prev: Git,  Up: Downloading

2.2.2 Git incantations
----------------------

To download the very latest SLIME you first configure your ‘GitROOT’ and
login to the repository.

     git clone https://github.com/slime/slime.git

   You might substitute ‘https’ for ‘http’ if you’re having problems
with that protocol.

   If you want to hack on SLIME, use Github’s _fork_ functionality and
submit a _pull request_.  Be sure to first read the CONTRIBUTING.md file
first.


File: slime.info,  Node: Installation,  Next: Running,  Prev: Downloading,  Up: Getting started

2.3 Installation
================

The easiest way to install and keep SLIME up-to-date is using Emacs’s
built-in package manager.  SLIME is available from the MELPA repository.
After setting up the MELPA repository, SLIME can be installed via ‘M-x
package-install RET slime RET’.  You should then define your default
Lisp in your ‘.emacs’ as follows:

     (setq inferior-lisp-program "/opt/sbcl/bin/sbcl")

   At this point, you should be ready to start *note running SLIME:
Running.

   This is the minimal configuration with the fewest frills.  If the
basic setup is working, you can try additional modules (*note Loading
Contribs::).

2.3.1 Installing from Git
-------------------------

If you’d rather install SLIME directly from its git repository, you will
need to add a few extra lines in your ‘.emacs’:

     ;; _Setup load-path, autoloads and your lisp system_
     ;; _Not needed if you install SLIME via MELPA_
     (add-to-list 'load-path "~/dir/to/cloned/slime")
     (require 'slime-autoloads)
     (setq inferior-lisp-program "/opt/sbcl/bin/sbcl")

   You may optionally byte-compile SLIME using ‘make compile
contrib-compile’.


File: slime.info,  Node: Running,  Next: Setup Tuning,  Prev: Installation,  Up: Getting started

2.4 Running SLIME
=================

SLIME is started with the Emacs command ‘M-x slime’.  This uses the
‘inferior-lisp’ package to start a Lisp process, loads and starts the
Lisp-side server (known as “Swank”), and establishes a socket connection
between Emacs and Lisp.  Finally a REPL buffer is created where you can
enter Lisp expressions for evaluation.

   At this point SLIME is up and running and you can start exploring.


File: slime.info,  Node: Setup Tuning,  Prev: Running,  Up: Getting started

2.5 Setup Tuning
================

This section explains ways to perform basic extensions to SLIME, and how
to configure SLIME for multiple Lisp systems and how to reduce SLIME’s
startup time.

   Please proceed with this section only if your basic setup works.  If
you are happy with the basic setup, skip this section.

   For contrib modules *note Loading Contribs::.

* Menu:

* Basic customization::
* Multiple Lisps::
* Loading Swank faster::


File: slime.info,  Node: Basic customization,  Next: Multiple Lisps,  Up: Setup Tuning

2.5.1 Basic customization
-------------------------

Once you have the basic no-frills setup working, you can enhance your
SLIME installation with bundled extensions:

     ;; _Setup load-path, autoloads and your lisp system_
     (add-to-list 'load-path "~/dir/to/cloned/slime")
     (require 'slime-autoloads)

   See *note Loading Contribs:: for more information on SLIME’s contrib
system.

   To customize a particular binding in one of SLIME’s keymaps, you can
add one of the following to your init file:

     (add-hook 'slime-load-hook
       (lambda ()
          (define-key slime-prefix-map (kbd "M-h") 'slime-documentation-lookup)))

   The former technique works only for SLIME’s core keymaps, not it’s
contribs’.  For those you can use the latter form which works for any
Emacs library.  See also *note Customization:: for more advanced
configuration options.


File: slime.info,  Node: Multiple Lisps,  Next: Loading Swank faster,  Prev: Basic customization,  Up: Setup Tuning

2.5.2 Multiple Lisps
--------------------

By default, the command ‘M-x slime’ starts the program specified with
‘inferior-lisp-program’.  If you invoke ‘M-x slime’ with a prefix
argument, Emacs prompts for the program which should be started instead.
If you need that frequently or if the command involves long filenames
it’s more convenient to set the ‘slime-lisp-implementations’ variable in
your ‘.emacs’.  For example here we define two programs:

     (setq slime-lisp-implementations
           '((cmucl ("cmucl" "-quiet"))
             (sbcl ("/opt/sbcl/bin/sbcl") :coding-system utf-8-unix)))

   This variable holds a list of programs and if you invoke SLIME with a
negative prefix argument, ‘M-- M-x slime’, you can select a program from
that list.  When called without a prefix, either the name specified in
‘slime-default-lisp’, or the first item of the list will be used.  The
elements of the list should look like

     (NAME (PROGRAM PROGRAM-ARGS...) &key CODING-SYSTEM INIT INIT-FUNCTION ENV)

‘NAME’
     is a symbol and is used to identify the program.
‘PROGRAM’
     is the filename of the program.  Note that the filename can contain
     spaces.
‘PROGRAM-ARGS’
     is a list of command line arguments.
‘CODING-SYSTEM’
     the coding system for the connection.  (*note
     slime-net-coding-system::)x
‘INIT’
     should be a function which takes two arguments: a filename and a
     character encoding.  The function should return a Lisp expression
     as a string which instructs Lisp to start the Swank server and to
     write the port number to the file.  At startup, SLIME starts the
     Lisp process and sends the result of this function to Lisp’s
     standard input.  As default, ‘slime-init-command’ is used.  An
     example is shown in *note Loading Swank faster: init-example.
‘INIT-FUNCTION’
     should be a function which takes no arguments.  It is called after
     the connection is established.  (See also *note
     slime-connected-hook::.)
‘ENV’
     specifies a list of environment variables for the subprocess.  E.g.
          (sbcl-cvs ("/home/me/sbcl-cvs/src/runtime/sbcl"
                     "--core" "/home/me/sbcl-cvs/output/sbcl.core")
                    :env ("SBCL_HOME=/home/me/sbcl-cvs/contrib/"))
     initializes ‘SBCL_HOME’ in the subprocess.


File: slime.info,  Node: Loading Swank faster,  Prev: Multiple Lisps,  Up: Setup Tuning

2.5.3 Loading Swank faster
--------------------------

For SBCL, we recommend that you create a custom core file with socket
support and POSIX bindings included because those modules take the most
time to load.  To create such a core, execute the following steps:

     shell$ sbcl
     * (mapc 'require '(sb-bsd-sockets sb-posix sb-introspect sb-cltl2 asdf))
     * (save-lisp-and-die "sbcl.core-for-slime")

   After that, add something like this to your ‘.emacs’:

     (setq slime-lisp-implementations
           '((sbcl ("sbcl" "--core" "sbcl.core-for-slime"))))

   For maximum startup speed you can include the Swank server directly
in a core file.  The disadvantage of this approach is that the setup is
a bit more involved and that you need to create a new core file when you
want to update SLIME or SBCL.  The steps to execute are:

     shell$ sbcl
     * (load ".../slime/swank-loader.lisp")
     * (swank-loader:dump-image "sbcl.core-with-swank")

Then add this to your ‘.emacs’:

     (setq slime-lisp-implementations
           '((sbcl ("sbcl" "--core" "sbcl.core-with-swank")
                   :init (lambda (port-file _)
                           (format "(swank:start-server %S)\n" port-file)))))

Similar setups should also work for other Lisp implementations.


File: slime.info,  Node: SLIME mode,  Next: Debugger,  Prev: Getting started,  Up: Top

3 Using Slime mode
******************

SLIME’s commands are provided via ‘slime-mode’, a minor-mode used in
conjunction with Emacs’s ‘lisp-mode’.  This chapter describes the
‘slime-mode’ and its relatives.

* Menu:

* User-interface conventions::
* Evaluation::
* Compilation::
* Completion::
* Finding definitions::
* Documentation::
* Cross-reference::
* Macro-expansion::
* Disassembly::
* Recovery::
* Inspector::
* Profiling::
* Other::
* Semantic indentation::
* Reader conditionals::


File: slime.info,  Node: User-interface conventions,  Next: Evaluation,  Up: SLIME mode

3.1 User-interface conventions
==============================

To use SLIME comfortably it is important to understand a few “global”
user-interface characteristics.  The most important principles are
described in this section.

* Menu:

* Temporary buffers::
* Inferior-lisp::
* Multithreading::
* Key bindings::


File: slime.info,  Node: Temporary buffers,  Next: Inferior-lisp,  Up: User-interface conventions

3.1.1 Temporary buffers
-----------------------

Some SLIME commands create temporary buffers to display their results.
Although these buffers usually have their own special-purpose
major-modes, certain conventions are observed throughout.

   Temporary buffers can be dismissed by pressing ‘q’.  This kills the
buffer and restores the window configuration as it was before the buffer
was displayed.  Temporary buffers can also be killed with the usual
commands like ‘kill-buffer’, in which case the previous window
configuration won’t be restored.

   Pressing ‘RET’ is supposed to “do the most obvious useful thing.” For
instance, in an apropos buffer this prints a full description of the
symbol at point, and in an XREF buffer it displays the source code for
the reference at point.  This convention is inherited from Emacs’s own
buffers for apropos listings, compilation results, etc.

   Temporary buffers containing Lisp symbols use ‘slime-mode’ in
addition to any special mode of their own.  This makes the usual SLIME
commands available for describing symbols, looking up function
definitions, and so on.

   Initial focus of those “description” buffers depends on the variable
‘slime-description-autofocus’.  If ‘nil’ (the default), description
buffers do not receive focus automatically, and vice versa.


File: slime.info,  Node: Inferior-lisp,  Next: Multithreading,  Prev: Temporary buffers,  Up: User-interface conventions

3.1.2 ‘*inferior-lisp*’ buffer
------------------------------

SLIME internally uses the ‘comint’ package to start Lisp processes.
This has a few user-visible consequences, some good and some
not-so-terribly.  To avoid confusion it is useful to understand the
interactions.

   The buffer ‘*inferior-lisp*’ contains the Lisp process’s own
top-level.  This direct access to Lisp is useful for troubleshooting,
and some degree of SLIME integration is available using the
inferior-slime-mode.  Many people load the better integrated SLIME REPL
contrib module (*note REPL::) and ignore the ‘*inferior-lisp*’ buffer.
(*note Loading Contribs:: for information on how to enable the REPL.)


File: slime.info,  Node: Multithreading,  Next: Key bindings,  Prev: Inferior-lisp,  Up: User-interface conventions

3.1.3 Multithreading
--------------------

If the Lisp system supports multithreading, SLIME spawns a new thread
for each request, e.g., ‘C-x C-e’ creates a new thread to evaluate the
expression.  An exception to this rule are requests from the REPL: all
commands entered in the REPL buffer are evaluated in a dedicated REPL
thread.

   Some complications arise with multithreading and special variables.
Non-global special bindings are thread-local, e.g., changing the value
of a let bound special variable in one thread has no effect on the
binding of the variables with the same name in other threads.  This
makes it sometimes difficult to change the printer or reader behaviour
for new threads.  The variable ‘swank:*default-worker-thread-bindings*’
was introduced for such situations: instead of modifying the global
value of a variable, add a binding the
‘swank:*default-worker-thread-bindings*’.  E.g., with the following
code, new threads will read floating point values as doubles by default:

     (push '(*read-default-float-format* . double-float)
            swank:*default-worker-thread-bindings*).


File: slime.info,  Node: Key bindings,  Prev: Multithreading,  Up: User-interface conventions

3.1.4 Key bindings
------------------

In general we try to make our key bindings fit with the overall Emacs
style.  We also have the following somewhat unusual convention of our
own: when entering a three-key sequence, the final key can be pressed
either with control or unmodified.  For example, the
‘slime-describe-symbol’ command is bound to ‘C-c C-d d’, but it also
works to type ‘C-c C-d C-d’.  We’re simply binding both key sequences
because some people like to hold control for all three keys and others
don’t, and with the two-key prefix we’re not afraid of running out of
keys.

   There is one exception to this rule, just to trip you up.  We never
bind ‘C-h’ anywhere in a key sequence, so ‘C-c C-d C-h’ doesn’t do the
same thing as ‘C-c C-d h’.  This is because Emacs has a built-in default
so that typing a prefix followed by ‘C-h’ will display all bindings
starting with that prefix, so ‘C-c C-d C-h’ will actually list the
bindings for all documentation commands.  This feature is just a bit too
useful to clobber!

     “Are you deliberately spiting Emacs’s brilliant online help
     facilities?  The gods will be angry!”

This is a brilliant piece of advice.  The Emacs online help facilities
are your most immediate, up-to-date and complete resource for keybinding
information.  They are your friends:

‘C-h k <key>’
     ‘describe-key’ “What does this key do?”
     Describes current function bound to ‘<key>’ for focus buffer.

‘C-h b’
     ‘describe-bindings’ “Exactly what bindings are available?”
     Lists the current key-bindings for the focus buffer.

‘C-h m’
     ‘describe-mode’ “Tell me all about this mode”
     Shows all the available major mode keys, then the minor mode keys,
     for the modes of the focus buffer.

‘C-h l’
     ‘view-lossage’ “Woah, what key chord did I just do?”
     Shows you the literal sequence of keys you’ve pressed in order.

   _Note:_ In this documentation the designation ‘C-h’ is a “canonical
key” which might actually mean Ctrl-h, or F1, or whatever you have
‘help-command’ bound to in your ‘.emacs’.  Here is a common situation:

     (global-set-key [f1]   'help-command)
     (global-set-key "\C-h" 'delete-backward-char)

In this situation everywhere you see ‘C-h’ in the documentation you
would substitute ‘F1’.

   You can assign or change default key bindings globally using the
‘global-set-key’ function in your ‘~/.emacs’ file like this:
     (global-set-key "\C-c s" 'slime-selector)
which binds ‘C-c s’ to the function ‘slime-selector’.

   Alternatively, if you want to assign or change a key binding in just
a particular slime mode, you can use the ‘define-key’ function in your
‘~/.emacs’ file like this:
     (define-key slime-repl-mode-map (kbd "C-c ;")
                 'slime-insert-balanced-comments)
which binds ‘C-c ;’ to the function ‘slime-insert-balanced-comments’ in
the REPL buffer.


File: slime.info,  Node: Evaluation,  Next: Compilation,  Prev: User-interface conventions,  Up: SLIME mode

3.2 Evaluation commands
=======================

These commands each evaluate a Common Lisp expression in a different
way.  Usually they mimic commands for evaluating Emacs Lisp code.  By
default they show their results in the echo area, but a prefix argument
causes the results to be inserted in the current buffer.

‘C-x C-e’
‘M-x slime-eval-last-expression’

     Evaluate the expression before point and show the result in the
     echo area.

‘C-M-x’
‘M-x slime-eval-defun’
     Evaluate the current toplevel form and show the result in the echo
     area.  ‘C-M-x’ treats ‘defvar’ expressions specially.  Normally,
     evaluating a ‘defvar’ expression does nothing if the variable it
     defines already has a value.  But ‘C-M-x’ unconditionally resets
     the variable to the initial value specified in the ‘defvar’
     expression.  This special feature is convenient for debugging Lisp
     programs.

   If ‘C-M-x’ or ‘C-x C-e’ is given a numeric argument, it inserts the
value into the current buffer, rather than displaying it in the echo
area.

‘C-c :’
‘M-x slime-interactive-eval’
     Evaluate an expression read from the minibuffer.

‘C-c C-r’
‘M-x slime-eval-region’
     Evaluate the region.

‘C-c C-p’
‘M-x slime-pprint-eval-last-expression’
     Evaluate the expression before point and pretty-print the result in
     a fresh buffer.

‘C-c E’
‘M-x slime-edit-value’
     Edit the value of a setf-able form in a new buffer ‘*Edit <form>*’.
     The value is inserted into a temporary buffer for editing and then
     set in Lisp when committed with ‘C-c C-c’.

‘C-c C-u’
‘M-x slime-undefine-function’
     Undefine the function, with ‘fmakunbound’, for the symbol at point.


File: slime.info,  Node: Compilation,  Next: Completion,  Prev: Evaluation,  Up: SLIME mode

3.3 Compilation commands
========================

SLIME has fancy commands for compiling functions, files, and packages.
The fancy part is that notes and warnings offered by the Lisp compiler
are intercepted and annotated directly onto the corresponding
expressions in the Lisp source buffer.  (Give it a try to see what this
means.)

‘C-c C-c’
‘M-x slime-compile-defun’
     Compile the top-level form at point.  The region blinks shortly to
     give some feedback which part was chosen.

     With (positive) prefix argument the form is compiled with maximal
     debug settings (‘C-u C-c C-c’).  With negative prefix argument it
     is compiled for speed (‘M-- C-c C-c’).  If a numeric argument is
     passed set debug or speed settings to it depending on its sign.

     The code for the region is executed after compilation.  In
     principle, the command writes the region to a file, compiles that
     file, and loads the resulting code.

‘C-c C-k’
‘M-x slime-compile-and-load-file’
     Compile and load the current buffer’s source file.  If the
     compilation step fails, the file is not loaded.  It’s not always
     easy to tell whether the compilation failed: occasionally you may
     end up in the debugger during the load step.

     With (positive) prefix argument the file is compiled with maximal
     debug settings (‘C-u C-c C-k’).  With negative prefix argument it
     is compiled for speed (‘M-- C-c C-k’).  If a numeric argument is
     passed set debug or speed settings to it depending on its sign.

‘C-c M-k’
‘M-x slime-compile-file’
     Compile (but don’t load) the current buffer’s source file.

‘C-c C-l’
‘M-x slime-load-file’
     Load a Lisp file.  This command uses the Common Lisp LOAD function.

‘M-x slime-compile-region’
     Compile the selected region.

   The annotations are indicated as underlining on source forms.  The
compiler message associated with an annotation can be read either by
placing the mouse over the text or with the selection commands below.

‘M-n’
‘M-x slime-next-note’
     Move the point to the next compiler note and displays the note.

‘M-p’
‘M-x slime-previous-note’
     Move the point to the previous compiler note and displays the note.

‘C-c M-c’
‘M-x slime-remove-notes’
     Remove all annotations from the buffer.

‘C-x `’
‘M-x next-error’
     Visit the next-error message.  This is not actually a SLIME command
     but SLIME creates a hidden buffer so that most of the Compilation
     mode commands (*note (emacs)Compilation Mode::) work similarly for
     Lisp as for batch compilers.


File: slime.info,  Node: Completion,  Next: Finding definitions,  Prev: Compilation,  Up: SLIME mode

3.4 Completion commands
=======================

Completion commands are used to complete a symbol or form based on what
is already present at point.  Classical completion assumes an exact
prefix and gives choices only where branches may occur.  Fuzzy
completion tries harder.

‘M-TAB’
‘M-x slime-complete-symbol’
     Complete the symbol at point.  Note that three styles of completion
     are available in SLIME; the default is similar to normal Emacs
     completion (*note slime-completion-at-point-functions::).


File: slime.info,  Node: Finding definitions,  Next: Documentation,  Prev: Completion,  Up: SLIME mode

3.5 Finding definitions (“Meta-Point” commands).
================================================

The familiar ‘M-.’ command is provided.  For generic functions this
command finds all methods, and with some systems it does other fancy
things (like tracing structure accessors to their ‘DEFSTRUCT’
definition).

‘M-.’
‘M-x slime-edit-definition’
     Go to the definition of the symbol at point.

‘M-,’
‘M-*’
‘M-x slime-pop-find-definition-stack’
     Go back to the point where ‘M-.’ was invoked.  This gives
     multi-level backtracking when ‘M-.’ has been used several times.

‘C-x 4 .’
‘M-x slime-edit-definition-other-window’
     Like ‘slime-edit-definition’ but switches to the other window to
     edit the definition in.

‘C-x 5 .’
‘M-x slime-edit-definition-other-frame’
     Like ‘slime-edit-definition’ but opens another frame to edit the
     definition in.

‘M-x slime-edit-definition-with-etags’
     Use an ETAGS table to find definition at point.


File: slime.info,  Node: Documentation,  Next: Cross-reference,  Prev: Finding definitions,  Up: SLIME mode

3.6 Documentation commands
==========================

SLIME’s online documentation commands follow the example of Emacs Lisp.
The commands all share the common prefix ‘C-c C-d’ and allow the final
key to be modified or unmodified (*note Key bindings::.)

‘SPC’
‘M-x slime-space’
     The space key inserts a space, but also looks up and displays the
     argument list for the function at point, if there is one.

‘C-c C-d d’
‘M-x slime-describe-symbol’
     Describe the symbol at point.

‘C-c C-d f’
‘M-x slime-describe-function’
     Describe the function at point.

‘C-c C-d A’
‘M-x slime-apropos’
     Perform an apropos search on Lisp symbol names for a regular
     expression match and display their documentation strings.  By
     default the external symbols of all packages are searched.  With a
     prefix argument you can choose a specific package and whether to
     include unexported symbols.

‘C-c C-d z’
‘M-x slime-apropos-all’
     Like ‘slime-apropos’ but also includes internal symbols by default.

‘C-c C-d p’
‘M-x slime-apropos-package’
     Show apropos results of all symbols in a package.  This command is
     for browsing a package at a high-level.  With package-name
     completion it also serves as a rudimentary Smalltalk-ish
     image-browser.

‘C-c C-d h’
‘M-x slime-hyperspec-lookup’
     Lookup the symbol at point in the ‘Common Lisp Hyperspec’.  This
     uses the familiar ‘hyperspec.el’ to show the appropriate section in
     a web browser.  The Hyperspec is found either on the Web or in
     ‘common-lisp-hyperspec-root’, and the browser is selected by
     ‘browse-url-browser-function’.

     Note: this is one case where ‘C-c C-d h’ is _not_ the same as ‘C-c
     C-d C-h’.

‘C-c C-d ~’
‘M-x hyperspec-lookup-format’
     Lookup a _format character_ in the ‘Common Lisp Hyperspec’.

‘C-c C-d #’
‘M-x hyperspec-lookup-reader-macro’
     Lookup a _reader macro_ in the ‘Common Lisp Hyperspec’.


File: slime.info,  Node: Cross-reference,  Next: Macro-expansion,  Prev: Documentation,  Up: SLIME mode

3.7 Cross-reference commands
============================

SLIME’s cross-reference commands are based on the support provided by
the Lisp system, which varies widely between Lisps.  For systems with no
built-in XREF support SLIME queries a portable XREF package, which is
taken from the ‘CMU AI Repository’ and bundled with SLIME.

   Each command operates on the symbol at point, or prompts if there is
none.  With a prefix argument they always prompt.  You can either enter
the key bindings as shown here or with the control modified on the last
key, *Note Key bindings::.

* Menu:

* Xref buffer commands::

‘C-c C-w c’
‘M-x slime-who-calls’
     Show function callers.

‘C-c C-w w’
‘M-x slime-calls-who’
     Show all known callees.

‘C-c C-w r’
‘M-x slime-who-references’
     Show references to global variable.

‘C-c C-w b’
‘M-x slime-who-binds’
     Show bindings of a global variable.

‘C-c C-w s’
‘M-x slime-who-sets’
     Show assignments to a global variable.

‘C-c C-w m’
‘M-x slime-who-macroexpands’
     Show expansions of a macro.

‘M-x slime-who-specializes’
     Show all known methods specialized on a class.

   There are also “List callers/callees” commands.  These operate by
rummaging through function objects on the heap at a low-level to
discover the call graph.  They are only available with some Lisp
systems, and are most useful as a fallback when precise XREF information
is unavailable.

‘C-c <’
‘M-x slime-list-callers’
     List callers of a function.

‘C-c >’
‘M-x slime-list-callees’
     List callees of a function.


File: slime.info,  Node: Xref buffer commands,  Up: Cross-reference

3.7.1 Xref buffer commands
--------------------------

Commands available in Xref buffers

‘RET’
‘M-x slime-show-xref’
     Show definition at point in the other window.  Do not leave Xref
     buffer.

‘Space’
‘M-x slime-goto-xref’
     Show definition at point in the other window and close Xref buffer.

‘C-c C-c’
‘M-x slime-recompile-xref’
     Recompile definition at point.

‘C-c C-k’
‘M-x slime-recompile-all-xrefs’
     Recompile all definitions.


File: slime.info,  Node: Macro-expansion,  Next: Disassembly,  Prev: Cross-reference,  Up: SLIME mode

3.8 Macro-expansion commands
============================

‘C-c C-m’
‘M-x slime-expand-1’
     Macroexpand (or compiler-macroexpand) the expression starting at
     point once.  If invoked with a prefix argument use macroexpand
     instead or macroexpand-1 (or compiler-macroexpand instead of
     compiler-macroexpand-1).

‘M-x slime-macroexpand-1’
     Macroexpand the expression starting at point once.  If invoked with
     a prefix argument, use macroexpand instead of macroexpand-1.

‘C-c M-m’
‘M-x slime-macroexpand-all’
     Fully macroexpand the expression starting at point.

‘M-x slime-compiler-macroexpand-1’
     Display the compiler-macro expansion of sexp starting at point.

‘M-x slime-compiler-macroexpand’
     Repeatedly expand compiler macros of sexp starting at point.

   For additional minor-mode commands and discussion, *note
slime-macroexpansion-minor-mode::.


File: slime.info,  Node: Disassembly,  Next: Recovery,  Prev: Macro-expansion,  Up: SLIME mode

3.9 Disassembly commands
========================

‘C-c M-d’
‘M-x slime-disassemble-symbol’
     Disassemble the function definition of the symbol at point.

‘C-c C-t’
‘M-x slime-toggle-trace-fdefinition’
     Toggle tracing of the function at point.  If invoked with a prefix
     argument, read additional information, like which particular method
     should be traced.

‘M-x slime-untrace-all’
     Untrace all functions.


File: slime.info,  Node: Recovery,  Next: Inspector,  Prev: Disassembly,  Up: SLIME mode

3.10 Abort/Recovery commands
============================

‘C-c C-b’
‘M-x slime-interrupt’
     Interrupt Lisp (send ‘SIGINT’).

‘M-x slime-restart-inferior-lisp’
     Restart the ‘inferior-lisp’ process.

‘C-c ~’
‘M-x slime-sync-package-and-default-directory’
     Synchronize the current package and working directory from Emacs to
     Lisp.

‘C-c M-p’
‘M-x slime-repl-set-package’
     Set the current package of the REPL.

‘M-x slime-cd’
     Set the current directory of the Lisp process.  This also changes
     the current directory of the REPL buffer.

‘M-x slime-pwd’
     Print the current directory of the Lisp process.


File: slime.info,  Node: Inspector,  Next: Profiling,  Prev: Recovery,  Up: SLIME mode

3.11 Inspector commands
=======================

The SLIME inspector is a Emacs-based alternative to the standard
‘INSPECT’ function.  The inspector presents objects in Emacs buffers
using a combination of plain text, hyperlinks to related objects.

   The inspector can easily be specialized for the objects in your own
programs.  For details see the ‘inspect-for-emacs’ generic function in
‘swank/backend.lisp’.

‘C-c I’
‘M-x slime-inspect’
     Inspect the value of an expression entered in the minibuffer.

   The standard commands available in the inspector are:

‘RET’
‘M-x slime-inspector-operate-on-point’
     If point is on a value then recursively call the inspector on that
     value.  If point is on an action then call that action.

‘d’
‘M-x slime-inspector-describe’
     Describe the slot at point.

‘e’
‘M-x slime-inspector-eval’
     Evaluate an expression in the context of the inspected object.  The
     variable ‘*’ will be bound to the inspected object.

‘v’
‘M-x slime-inspector-toggle-verbose’
     Toggle between verbose and terse mode.  Default is determined by
     ‘swank:*inspector-verbose*’.

‘l’
‘M-x slime-inspector-pop’
     Go back to the previous object (return from ‘RET’).

‘n’
‘M-x slime-inspector-next’
     The inverse of ‘l’.  Also bound to ‘SPC’.

‘g’
‘M-x slime-inspector-reinspect’
     Reinspect.

‘q’
‘M-x slime-inspector-quit’
     Dismiss the inspector buffer.

‘p’
‘M-x slime-inspector-pprint’
     Pretty print in another buffer object at point.

‘.’
‘M-x slime-inspector-show-source’
     Find source of object at point.

‘>’
‘M-x slime-inspector-fetch-all’
     Fetch all inspector contents and go to the end.

‘M-RET’
‘M-x slime-inspector-copy-down’
     Store the value under point in the variable ‘*’.  This can then be
     used to access the object in the REPL.

‘TAB, M-x slime-inspector-next-inspectable-object’
‘S-TAB, M-x slime-inspector-previous-inspectable-object’

     Jump to the next and previous inspectable object respectively.


File: slime.info,  Node: Profiling,  Next: Other,  Prev: Inspector,  Up: SLIME mode

3.12 Profiling commands
=======================

The profiling commands are based on CMUCL’s profiler.  These are simple
wrappers around functions which usually print something to the output
buffer.

‘M-x slime-toggle-profile-fdefinition’
     Toggle profiling of a function.
‘M-x slime-profile-package’
     Profile all functions in a package.
‘M-x slime-profile-by-substring’
     Profile all functions which names contain a substring.
‘M-x slime-unprofile-all’
     Unprofile all functions.
‘M-x slime-profile-report’
     Report profiler data.
‘M-x slime-profile-reset’
     Reset profiler data.
‘M-x slime-profiled-functions’
     Show list of currently profiled functions.


File: slime.info,  Node: Other,  Next: Semantic indentation,  Prev: Profiling,  Up: SLIME mode

3.13 Shadowed Commands
======================

‘C-c C-a, M-x slime-nop’
‘C-c C-v, M-x slime-nop’
     This key-binding is shadowed from inf-lisp.


File: slime.info,  Node: Semantic indentation,  Next: Reader conditionals,  Prev: Other,  Up: SLIME mode

3.14 Semantic indentation
=========================

SLIME automatically discovers how to indent the macros in your Lisp
system.  To do this the Lisp side scans all the macros in the system and
reports to Emacs all the ones with ‘&body’ arguments.  Emacs then
indents these specially, putting the first arguments four spaces in and
the “body” arguments just two spaces, as usual.

   This should “just work.” If you are a lucky sort of person you
needn’t read the rest of this section.

   To simplify the implementation, SLIME doesn’t distinguish between
macros with the same symbol-name but different packages.  This makes it
fit nicely with Emacs’s indentation code.  However, if you do have
several macros with the same symbol-name then they will all be indented
the same way, arbitrarily using the style from one of their arglists.
You can find out which symbols are involved in collisions with:

     (swank:print-indentation-lossage)

   If a collision causes you irritation, don’t have a nervous breakdown,
just override the Elisp symbol’s ‘common-lisp-indent-function’ property
to your taste.  SLIME won’t override your custom settings, it just tries
to give you good defaults.

   A more subtle issue is that imperfect caching is used for the sake of
performance.  (1)

   In an ideal world, Lisp would automatically scan every symbol for
indentation changes after each command from Emacs.  However, this is too
expensive to do every time.  Instead Lisp usually just scans the symbols
whose home package matches the one used by the Emacs buffer where the
request comes from.  That is sufficient to pick up the indentation of
most interactively-defined macros.  To catch the rest we make a full
scan of every symbol each time a new Lisp package is created between
commands – that takes care of things like new systems being loaded.

   You can use ‘M-x slime-update-indentation’ to force all symbols to be
scanned for indentation information.

   ---------- Footnotes ----------

   (1) _Of course_ we made sure it was actually too slow before making
the ugly optimization.


File: slime.info,  Node: Reader conditionals,  Prev: Semantic indentation,  Up: SLIME mode

3.15 Reader conditional fontification
=====================================

SLIME automatically evaluates reader-conditional expressions, like
‘#+linux’, in source buffers and “grays out” code that will be skipped
for the current Lisp connection.


File: slime.info,  Node: Debugger,  Next: Misc,  Prev: SLIME mode,  Up: Top

4 SLDB: the SLIME debugger
**************************

SLIME has a custom Emacs-based debugger called SLDB.  Conditions
signalled in the Lisp system invoke SLDB in Emacs by way of the Lisp
‘*DEBUGGER-HOOK*’.

   SLDB pops up a buffer when a condition is signalled.  The buffer
displays a description of the condition, a list of restarts, and a
backtrace.  Commands are offered for invoking restarts, examining the
backtrace, and poking around in stack frames.

* Menu:

* Examining frames::
* Restarts::
* Frame Navigation::
* Stepping::
* Miscellaneous::


File: slime.info,  Node: Examining frames,  Next: Restarts,  Up: Debugger

4.1 Examining frames
====================

Commands for examining the stack frame at point.

‘t’
‘M-x sldb-toggle-details’
     Toggle display of local variables and ‘CATCH’ tags.

‘v’
‘M-x sldb-show-source’
     View the frame’s current source expression.  The expression is
     presented in the Lisp source file’s buffer.

‘e’
‘M-x sldb-eval-in-frame’
     Evaluate an expression in the frame.  The expression can refer to
     the available local variables in the frame.

‘d’
‘M-x sldb-pprint-eval-in-frame’
     Evaluate an expression in the frame and pretty-print the result in
     a temporary buffer.

‘D’
‘M-x sldb-disassemble’
     Disassemble the frame’s function.  Includes information such as the
     instruction pointer within the frame.

‘i’
‘M-x sldb-inspect-in-frame’
     Inspect the result of evaluating an expression in the frame.

‘C-c C-c’
‘M-x sldb-recompile-frame-source’
     Recompile frame.  ‘C-u C-c C-c’ for recompiling with maximum debug
     settings.


File: slime.info,  Node: Restarts,  Next: Frame Navigation,  Prev: Examining frames,  Up: Debugger

4.2 Invoking restarts
=====================

‘a’
‘M-x sldb-abort’
     Invoke the ‘ABORT’ restart.

‘q’
‘M-x sldb-quit’
     “Quit” – For SLIME evaluation requests, invoke a restart which
     restores to a known program state.  For errors in other threads,
     see *note *SLDB-QUIT-RESTART*::.

‘c’
‘M-x sldb-continue’
     Invoke the ‘CONTINUE’ restart.

‘0 ... 9’
     Invoke a restart by number.

   Restarts can also be invoked by pressing ‘RET’ or ‘Mouse-2’ on them
in the buffer.


File: slime.info,  Node: Frame Navigation,  Next: Stepping,  Prev: Restarts,  Up: Debugger

4.3 Navigating between frames
=============================

‘n, M-x sldb-down’
‘p, M-x sldb-up’
     Move between frames.

‘M-n, M-x sldb-details-down’
‘M-p, M-x sldb-details-up’
     Move between frames “with sugar”: hide the details of the original
     frame and display the details and source code of the next.  Sugared
     motion makes you see the details and source code for the current
     frame only.

‘>’
‘M-x sldb-end-of-backtrace’
     Fetch the entire backtrace and go to the last frame.

‘<’
‘M-x sldb-beginning-of-backtrace’
     Goto the first frame.


File: slime.info,  Node: Stepping,  Next: Miscellaneous,  Prev: Frame Navigation,  Up: Debugger

4.4 Stepping
============

Stepping is not available in all implementations and works very
differently in those in which it is available.

‘s’
‘M-x sldb-step’
     Step to the next expression in the frame.  For CMUCL that means,
     set a breakpoint at all those code locations in the current code
     block which are reachable from the current code location.

‘x’
‘M-x sldb-next’
     Step to the next form in the current function.

‘o’
‘M-x sldb-out’
     Stop single-stepping temporarily, but resume it once the current
     function returns.


File: slime.info,  Node: Miscellaneous,  Prev: Stepping,  Up: Debugger

4.5 Miscellaneous Commands
==========================

‘r’
‘M-x sldb-restart-frame’
     Restart execution of the frame with the same arguments it was
     originally called with.  (This command is not available in all
     implementations.)

‘R’
‘M-x sldb-return-from-frame’
     Return from the frame with a value entered in the minibuffer.
     (This command is not available in all implementations.)

‘B’
‘M-x sldb-break-with-default-debugger’
     Exit SLDB and debug the condition using the Lisp system’s default
     debugger.

‘C’
‘M-x sldb-inspect-condition’
     Inspect the condition currently being debugged.

‘:’
‘M-x slime-interactive-eval’
     Evaluate an expression entered in the minibuffer.
‘A’
‘M-x sldb-break-with-system-debugger’
     Attach debugger (e.g.  gdb) to the current lisp process.


File: slime.info,  Node: Misc,  Next: Customization,  Prev: Debugger,  Up: Top

5 Misc
******

* Menu:

* slime-selector::
* slime-macroexpansion-minor-mode::
* Multiple connections::


File: slime.info,  Node: slime-selector,  Next: slime-macroexpansion-minor-mode,  Up: Misc

5.1 ‘slime-selector’
====================

The ‘slime-selector’ command is for quickly switching to important
buffers: the REPL, SLDB, the Lisp source you were just hacking, etc.
Once invoked the command prompts for a single letter to specify which
buffer it should display.  If a prefix argument is specified then the
buffer is shown in the other window.  Here are some of the main options:

‘?’
     A help buffer listing all ‘slime-selectors’’s available buffers.
     This includes some options of lesser importance, e.g.  intended for
     debugging SLIME, which are not included in this list.
‘r’
     The REPL buffer for the current SLIME connection.
‘d’
     The most recently activated SLDB buffer for the current connection.
‘l’
     The most recently visited ‘lisp-mode’ source buffer.
‘s’
     The ‘*slime-scratch*’ buffer (*note slime-scratch::).
‘c’
     SLIME connections buffer (*note Multiple connections::).
‘n’
     Cycle to the next Lisp connection (*note Multiple connections::).
‘t’
     SLIME threads buffer (*note Multiple connections::).
‘i’
     The ‘*inferior-lisp*’ buffer for the current connection.
‘4’
     Show buffer in other window.  Equivalent to supplying a prefix
     argument.  Prompts again for which buffer to select.

   ‘slime-selector’ doesn’t have a key binding by default but we suggest
that you assign it a global one.  You can bind it to ‘C-c s’ like this:

     (global-set-key "\C-cs" 'slime-selector)

And then you can switch to the REPL from anywhere with ‘C-c s r’.

   The macro ‘def-slime-selector-method’ can be used to define new
buffers for ‘slime-selector’ to find.


File: slime.info,  Node: slime-macroexpansion-minor-mode,  Next: Multiple connections,  Prev: slime-selector,  Up: Misc

5.2 slime-macroexpansion-minor-mode
===================================

Within a slime macroexpansion buffer some extra commands are provided
(these commands are always available but are only bound to keys in a
macroexpansion buffer).

‘C-c C-m’
‘M-x slime-macroexpand-1-inplace’
     Just like slime-macroexpand-1 but the original form is replaced
     with the expansion.

‘g’
‘M-x slime-macroexpand-1-inplace’
     The last macroexpansion is performed again, the current contents of
     the macroexpansion buffer are replaced with the new expansion.

‘q’
‘M-x slime-temp-buffer-quit’
     Close the expansion buffer.

‘C-_’
‘M-x slime-macroexpand-undo’
     Undo last macroexpansion operation.


File: slime.info,  Node: Multiple connections,  Prev: slime-macroexpansion-minor-mode,  Up: Misc

5.3 Multiple connections
========================

SLIME is able to connect to multiple Lisp processes at the same time.
The ‘M-x slime’ command, when invoked with a prefix argument, will offer
to create an additional Lisp process if one is already running.  This is
often convenient, but it requires some understanding to make sure that
your SLIME commands execute in the Lisp that you expect them to.

   Some buffers are tied to specific Lisp processes.  Each Lisp
connection has its own REPL buffer, and all expressions entered or SLIME
commands invoked in that buffer are sent to the associated connection.
Other buffers created by SLIME are similarly tied to the connections
they originate from, including SLDB buffers, apropos result listings,
and so on.  These buffers are the result of some interaction with a Lisp
process, so commands in them always go back to that same process.

   Commands executed in other places, such as ‘slime-mode’ source
buffers, always use the “default” connection.  Usually this is the most
recently established connection, but this can be reassigned via the
“connection list” buffer:

‘C-c C-x c’
‘M-x slime-list-connections’
     Pop up a buffer listing the established connections.  It is also
     available by the typing ‘c’ from the SLIME selector (*note
     slime-selector::).

‘C-c C-x n’
‘M-x slime-cycle-connections’
     Change current Lisp connection by cycling through all connections.
     It is also available by the typing ‘n’ from the SLIME selector
     (*note slime-selector::).

‘C-c C-x t’
‘M-x slime-list-threads’
     Pop up a buffer listing the current threads.  It is also available
     by the typing ‘t’ from the SLIME selector (*note slime-selector::).

   The buffer displayed by ‘slime-list-connections’ gives a one-line
summary of each connection.  The summary shows the connection’s serial
number, the name of the Lisp implementation, and other details of the
Lisp process.  The current “default” connection is indicated with an
asterisk.

   The commands available in the connection-list buffer are:

‘RET’
‘M-x slime-goto-connection’
     Pop to the REPL buffer of the connection at point.

‘d’
‘M-x slime-connection-list-make-default’
     Make the connection at point the “default” connection.  It will
     then be used for commands in ‘slime-mode’ source buffers.

‘g’
‘M-x slime-update-connection-list’
     Update the connection list in the buffer.

‘q’
‘M-x slime-temp-buffer-quit’
     Quit the connection list (kill buffer, restore window
     configuration).

‘R’
‘M-x slime-restart-connection-at-point’
     Restart the Lisp process for the connection at point.

‘M-x slime-connect’
     Connect to a running Swank server.

‘M-x slime-disconnect’
     Disconnect all connections.

‘M-x slime-abort-connection’
     Abort the current attempt to connect.


File: slime.info,  Node: Customization,  Next: Tips and Tricks,  Prev: Misc,  Up: Top

6 Customization
***************

* Menu:

* Emacs-side customization::
* Lisp-side::


File: slime.info,  Node: Emacs-side customization,  Next: Lisp-side,  Up: Customization

6.1 Emacs-side
==============

The Emacs part of SLIME can be configured with the Emacs ‘customize’
system, just use ‘M-x customize-group slime RET’.  Because the customize
system is self-describing, we only cover a few important or obscure
configuration options here in the manual.

‘slime-truncate-lines’
     The value to use for ‘truncate-lines’ in line-by-line summary
     buffers popped up by SLIME.  This is ‘t’ by default, which ensures
     that lines do not wrap in backtraces, apropos listings, and so on.
     It can however cause information to spill off the screen.

‘slime-completion-at-point-functions’
     A list of functions used for completion of Lisp symbols.  This
     works as the standard ‘completion-at-point-functions’ (*note
     (elisp)Completion in Buffers::).  Three completion styles are
     available: ‘slime-simple-completion-at-point’,
     ‘slime-complete-symbol*’ (*note Compound Completion::), and
     ‘slime-fuzzy-complete-symbol’ (*note Fuzzy Completion::).

     The default is ‘slime-simple-completion-at-point’, which completes
     in the usual Emacs way.

‘slime-filename-translations’
     This variable controls filename translation between Emacs and the
     Lisp system.  It is useful if you run Emacs and Lisp on separate
     machines which don’t share a common file system or if they share
     the filesystem but have different layouts, as is the case with
     SMB-based file sharing.

‘slime-net-coding-system’
     If you want to transmit Unicode characters between Emacs and the
     Lisp system, you should customize this variable.  E.g., if you use
     SBCL, you can set:
          (setq slime-net-coding-system 'utf-8-unix)
     To actually display Unicode characters you also need appropriate
     fonts, otherwise the characters will be rendered as hollow boxes.
     If you are using Allegro CL and GNU Emacs, you can also use
     ‘emacs-mule-unix’ as coding system.  GNU Emacs has often nicer
     fonts for the latter encoding.  (Different encodings can be used
     for different Lisps, see *note Multiple Lisps::.)

* Menu:

* Hooks::


File: slime.info,  Node: Hooks,  Up: Emacs-side customization

6.1.1 Hooks
-----------

‘slime-mode-hook’
     This hook is run each time a buffer enters ‘slime-mode’.  It is
     most useful for setting buffer-local configuration in your Lisp
     source buffers.  An example use is to enable ‘slime-autodoc-mode’
     (*note slime-autodoc-mode::).

‘slime-connected-hook’
     This hook is run when SLIME establishes a connection to a Lisp
     server.  An example use is to create a Typeout frame (*Note Typeout
     frames::.)

‘sldb-hook’
     This hook is run after SLDB is invoked.  The hook functions are
     called from the SLDB buffer after it is initialized.  An example
     use is to add ‘sldb-print-condition’ to this hook, which makes all
     conditions debugged with SLDB be recorded in the REPL buffer.


File: slime.info,  Node: Lisp-side,  Prev: Emacs-side customization,  Up: Customization

6.2 Lisp-side (Swank)
=====================

The Lisp server side of SLIME (known as “Swank”) offers several
variables to configure.  The initialization file ‘~/.swank.lisp’ is
automatically evaluated at startup and can be used to set these
variables.

* Menu:

* Communication style::
* Other configurables::


File: slime.info,  Node: Communication style,  Next: Other configurables,  Up: Lisp-side

6.2.1 Communication style
-------------------------

The most important configurable is ‘SWANK:*COMMUNICATION-STYLE*’, which
specifies the mechanism by which Lisp reads and processes protocol
messages from Emacs.  The choice of communication style has a global
influence on SLIME’s operation.

   The available communication styles are:

‘NIL’
     This style simply loops reading input from the communication socket
     and serves SLIME protocol events as they arise.  The simplicity
     means that the Lisp cannot do any other processing while under
     SLIME’s control.

‘:FD-HANDLER’
     This style uses the classical Unix-style “‘select()’-loop.” Swank
     registers the communication socket with an event-dispatching
     framework (such as ‘SERVE-EVENT’ in CMUCL and SBCL) and receives a
     callback when data is available.  In this style requests from Emacs
     are only detected and processed when Lisp enters the event-loop.
     This style is simple and predictable.

‘:SIGIO’
     This style uses “signal-driven I/O” with a ‘SIGIO’ signal handler.
     Lisp receives requests from Emacs along with a signal, causing it
     to interrupt whatever it is doing to serve the request.  This style
     has the advantage of responsiveness, since Emacs can perform
     operations in Lisp even while it is busy doing other things.  It
     also allows Emacs to issue requests concurrently, e.g.  to send one
     long-running request (like compilation) and then interrupt that
     with several short requests before it completes.  The disadvantages
     are that it may conflict with other uses of ‘SIGIO’ by Lisp code,
     and it may cause untold havoc by interrupting Lisp at an awkward
     moment.

‘:SPAWN’
     This style uses multiprocessing support in the Lisp system to
     execute each request in a separate thread.  This style has similar
     properties to ‘:SIGIO’, but it does not use signals and all
     requests issued by Emacs can be executed in parallel.

   The default request handling style is chosen according to the
capabilities of your Lisp system.  The general order of preference is
‘:SPAWN’, then ‘:SIGIO’, then ‘:FD-HANDLER’, with ‘NIL’ as a last
resort.  You can check the default style by calling
‘SWANK-BACKEND::PREFERRED-COMMUNICATION-STYLE’.  You can also override
the default by setting ‘SWANK:*COMMUNICATION-STYLE*’ in your Swank init
file.


File: slime.info,  Node: Other configurables,  Prev: Communication style,  Up: Lisp-side

6.2.2 Other configurables
-------------------------

These Lisp variables can be configured via your ‘~/.swank.lisp’ file:

‘SWANK:*CONFIGURE-EMACS-INDENTATION*’
     This variable controls whether indentation styles for
     ‘&body’-arguments in macros are discovered and sent to Emacs.  It
     is enabled by default.

‘SWANK:*GLOBALLY-REDIRECT-IO*’
     When T this causes the standard streams (‘*standard-output*’, etc)
     to be globally redirected to the REPL in Emacs.

     When ‘:STARTED-FROM-EMACS’ (default) redirects the output when the
     lisp is launched from emacs (i.e.  ‘M-x slime’), but not from ‘M-x
     slime-connect’.

     When ‘NIL’ these streams are only temporarily redirected to Emacs
     using dynamic bindings while handling requests.  Note that
     ‘*standard-input*’ is currently never globally redirected into
     Emacs, because it can interact badly with the Lisp’s native REPL by
     having it try to read from the Emacs one.

‘SWANK:*GLOBAL-DEBUGGER*’
     When true (the default) this causes ‘*DEBUGGER-HOOK*’ to be
     globally set to ‘SWANK:SWANK-DEBUGGER-HOOK’ and thus for SLIME to
     handle all debugging in the Lisp image.  This is for debugging
     multithreaded and callback-driven applications.

‘SWANK:*SLDB-QUIT-RESTART*’
     This variable names the restart that is invoked when pressing ‘q’
     (*note sldb-quit::) in SLDB.  For SLIME evaluation requests this is
     _unconditionally_ bound to a restart that returns to a safe point.
     This variable is supposed to customize what ‘q’ does if an
     application’s thread lands into the debugger (see
     ‘SWANK:*GLOBAL-DEBUGGER*’).
          (setf swank:*sldb-quit-restart* 'sb-thread:terminate-thread)

‘SWANK:*BACKTRACE-PRINTER-BINDINGS*’
‘SWANK:*MACROEXPAND-PRINTER-BINDINGS*’
‘SWANK:*SLDB-PRINTER-BINDINGS*’
‘SWANK:*SWANK-PPRINT-BINDINGS*’
     These variables can be used to customize the printer in various
     situations.  The values of the variables are association lists of
     printer variable names with the corresponding value.  E.g., to
     enable the pretty printer for formatting backtraces in SLDB, you
     can use:
          (push '(*print-pretty* . t) swank:*sldb-printer-bindings*).

‘SWANK:*USE-DEDICATED-OUTPUT-STREAM*’
     This variable controls whether to use an unsafe efficiency hack for
     sending printed output from Lisp to Emacs.  The default is ‘nil’,
     don’t use it, and is strongly recommended to keep.

     When ‘t’, a separate socket is established solely for Lisp to send
     printed output to Emacs through, which is faster than sending the
     output in protocol-messages to Emacs.  However, as nothing can be
     guaranteed about the timing between the dedicated output stream and
     the stream of protocol messages, the output of a Lisp command can
     arrive before or after the corresponding REPL results.  Thus output
     and REPL results can end up in the wrong order, or even
     interleaved, in the REPL buffer.  Using a dedicated output stream
     also makes it more difficult to communicate to a Lisp running on a
     remote host via SSH (*note Connecting to a remote lisp::).

‘SWANK:*DEDICATED-OUTPUT-STREAM-PORT*’
     When ‘*USE-DEDICATED-OUTPUT-STREAM*’ is ‘t’ the stream will be
     opened on this port.  The default value, ‘0’, means that the stream
     will be opened on some random port.

‘SWANK:*LOG-EVENTS*’
     Setting this variable to ‘t’ causes all protocol messages exchanged
     with Emacs to be printed to ‘*TERMINAL-IO*’.  This is useful for
     low-level debugging and for observing how SLIME works “on the
     wire.” The output of ‘*TERMINAL-IO*’ can be found in your Lisp
     system’s own listener, usually in the buffer ‘*inferior-lisp*’.


File: slime.info,  Node: Tips and Tricks,  Next: Contributed Packages,  Prev: Customization,  Up: Top

7 Tips and Tricks
*****************

* Menu:

* Connecting to a remote lisp::
* Global IO Redirection::
* Auto-SLIME::


File: slime.info,  Node: Connecting to a remote lisp,  Next: Global IO Redirection,  Up: Tips and Tricks

7.1 Connecting to a remote lisp
===============================

One of the advantages of the way SLIME is implemented is that we can
easily run the Emacs side (slime.el) on one machine and the lisp backend
(swank) on another.  The basic idea is to start up lisp on the remote
machine, load swank and wait for incoming SLIME connections.  On the
local machine we start up emacs and tell SLIME to connect to the remote
machine.  The details are a bit messier but the underlying idea is that
simple.

* Menu:

* Setting up the lisp image::
* Setting up Emacs::
* Setting up pathname translations::


File: slime.info,  Node: Setting up the lisp image,  Next: Setting up Emacs,  Up: Connecting to a remote lisp

7.1.1 Setting up the lisp image
-------------------------------

When you want to load swank without going through the normal, Emacs
based, process just load the ‘swank-loader.lisp’ file.  Just execute

     (load "/path/to/swank-loader.lisp")
     (swank-loader:init)

   inside a running lisp image(1).  Now all we need to do is startup our
swank server.  The first example assumes we’re using the default
settings.

     (swank:create-server)

   Since we’re going to be tunneling our connection via ssh(2) and we’ll
only have one port open we want to tell swank to not use an extra
connection for output (this is actually the default in current SLIME):

     (setf swank:*use-dedicated-output-stream* nil)

   If you need to do anything particular (like be able to reconnect to
swank after you’re done), look into ‘swank:create-server’’s other
arguments.  Some of these arguments are

‘:PORT’
     Port number for the server to listen on (default: 4005).
‘:STYLE’
     See *Note Communication style::.
‘:DONT-CLOSE’
     Boolean indicating if the server will continue to accept
     connections after the first one (default: ‘NIL’).  For
     “long-running” lisp processes to which you want to be able to
     connect from time to time, specify ‘:dont-close t’
‘:CODING-SYSTEM’
     String designating the encoding to be used to communicate between
     the Emacs and Lisp.

   So the more complete example will be
     (swank:create-server :port 4005  :dont-close t :coding-system "utf-8-unix")
   On the emacs side you will use something like
     (setq slime-net-coding-system 'utf-8-unix)
     (slime-connect "localhost" 4005))
   to connect to this lisp image from the same machine.

   ---------- Footnotes ----------

   (1) SLIME also provides an ASDF system definition which does the same
thing

   (2) there is a way to connect without an ssh tunnel, but it has the
side-effect of giving the entire world access to your lisp image, so
we’re not going to talk about it


File: slime.info,  Node: Setting up Emacs,  Next: Setting up pathname translations,  Prev: Setting up the lisp image,  Up: Connecting to a remote lisp

7.1.2 Setting up Emacs
----------------------

Now we need to create the tunnel between the local machine and the
remote machine.

     ssh -L4005:localhost:4005 username@remote.example.com

   That ssh invocation creates an ssh tunnel between the port 4005 on
our local machine and the port 4005 on the remote machine(1).

   Finally we can start SLIME:

     M-x slime-connect RET RET

   The ‘RET RET’ sequence just means that we want to use the default
host (‘localhost’) and the default port (‘4005’).  Even though we’re
connecting to a remote machine the ssh tunnel fools Emacs into thinking
it’s actually ‘localhost’.

   ---------- Footnotes ----------

   (1) By default swank listens for incoming connections on port 4005,
had we passed a ‘:port’ parameter to ‘swank:create-server’ we’d be using
that port number instead


File: slime.info,  Node: Setting up pathname translations,  Prev: Setting up Emacs,  Up: Connecting to a remote lisp

7.1.3 Setting up pathname translations
--------------------------------------

One of the main problems with running swank remotely is that Emacs
assumes the files can be found using normal filenames.  if we want
things like ‘slime-compile-and-load-file’ (‘C-c C-k’) and
‘slime-edit-definition’ (‘M-.’) to work correctly we need to find a way
to let our local Emacs refer to remote files.

   There are, mainly, two ways to do this.  The first is to mount, using
NFS or similar, the remote machine’s hard disk on the local machine’s
file system in such a fashion that a filename like
‘/opt/project/source.lisp’ refers to the same file on both machines.
Unfortunately NFS is usually slow, often buggy, and not always feasible,
fortunately we have an ssh connection and Emacs’ ‘tramp-mode’ can do the
rest.  (See *note TRAMP User Manual: (tramp)Top.)

   What we do is teach Emacs how to take a filename on the remote
machine and translate it into something that tramp can understand and
access (and vice versa).  Assuming the remote machine’s host name is
‘remote.example.com’, ‘cl:machine-instance’ returns “remote” and we
login as the user “user” we can use ‘slime-tramp’ contrib to setup the
proper translations by simply doing:

     (add-to-list 'slime-filename-translations
                  (slime-create-filename-translator
                   :machine-instance "remote"
                   :remote-host "remote.example.com"
                   :username "user"))


File: slime.info,  Node: Global IO Redirection,  Next: Auto-SLIME,  Prev: Connecting to a remote lisp,  Up: Tips and Tricks

7.2 Globally redirecting all IO to the REPL
===========================================

When connecting via ‘M-x slime-connect’ SLIME does not change
‘*standard-output*’ and friends outside of the REPL.  If you have any
other threads which call ‘format’, ‘write-string’, etc.  that output
will be seen only in the ‘*inferior-lisp*’ buffer or on the terminal,
more often than not this is inconvenient.  So, if you want code such as
this:

     (run-in-new-thread
       (lambda ()
         (write-line "In some random thread.~%" *standard-output*)))

   to send its output to SLIME’s repl buffer, as opposed to
‘*inferior-lisp*’, set ‘swank:*globally-redirect-io*’ to T in
‘~/.swank.lisp’

   But when started using ‘M-x slime’ the streams are redirected by
default.


File: slime.info,  Node: Auto-SLIME,  Prev: Global IO Redirection,  Up: Tips and Tricks

7.3 Connecting to SLIME automatically
=====================================

To make SLIME connect to your lisp whenever you open a lisp file just
add this to your ‘.emacs’:

     (add-hook 'slime-mode-hook
               (lambda ()
                 (unless (slime-connected-p)
                   (save-excursion (slime)))))


File: slime.info,  Node: Contributed Packages,  Next: Credits,  Prev: Tips and Tricks,  Up: Top

8 Contributed Packages
**********************

In version 2.1 we moved some functionality to separate packages.  This
chapter tells you how to load contrib modules and describes what the
particular packages do.

* Menu:

* Loading Contribs::
* REPL::
* slime-mrepl::
* inferior-slime-mode::
* Compound Completion::
* Fuzzy Completion::
* slime-autodoc-mode::
* ASDF::
* Banner::
* Editing Commands::
* Fancy Inspector::
* Presentations::
* Typeout frames::
* TRAMP::
* Documentation Links::
* Xref and Class Browser::
* Highlight Edits::
* Scratch Buffer::
* SLIME Trace Dialog::
* slime-sprof::
* SLIME Enhanced M-.::
* slime-fancy::
* Quicklisp::


File: slime.info,  Node: Loading Contribs,  Next: REPL,  Up: Contributed Packages

8.1 Loading Contrib Packages
============================

Contrib packages aren’t loaded by default.  You have to modify your
setup a bit so that Emacs knows where to find them and which of them to
load.  Generally, you set the variable ‘slime-contribs’ with the list of
package-names that you want to use.  Its default value is ‘slime-fancy’
which loads almost everything.  For example, a setup to load the
‘slime-scratch’ and ‘slime-editing-commands’ packages looks like:

     ;; _Setup load-path and autoloads_
     (add-to-list 'load-path "~/dir/to/cloned/slime")
     (require 'slime-autoloads)

     ;; _Set your lisp system and some contribs_
     (setq inferior-lisp-program "/opt/sbcl/bin/sbcl")
     (setq slime-contribs '(slime-scratch slime-editing-commands))

   After starting SLIME, the commands of both packages should be
available.

8.1.1 Loading and unloading “on the fly”
----------------------------------------

We recommend that you setup contribs _before_ starting SLIME via ‘M-x
slime’, but if you want to enable more contribs _after_ you do that, you
can set the ‘slime-contribs’ variable to another value and call ‘M-x
slime-setup’.  Note this though:

   • If you’ve removed contribs from the list they won’t be unloaded
     automatically.
   • If you have more than one SLIME connection currently active, you
     must manually repeat the ‘slime-setup’ step for each of them.

   Short of restarting Emacs, a reasonable way of unloading contribs is
by calling an Emacs Lisp function whose name is obtained by adding
‘-unload’ to the contrib’s name, for every contrib you wish to unload.
So, to remove ‘slime-repl’, you must call ‘slime-repl-unload’.  Because
the unload function will only, if ever, unload the Emacs Lisp side of
the contrib, you may also need to restart your lisps.


File: slime.info,  Node: REPL,  Next: slime-mrepl,  Prev: Loading Contribs,  Up: Contributed Packages

8.2 REPL: the “top level”
=========================

SLIME uses a custom Read-Eval-Print Loop (REPL, also known as a “top
level”, or listener).  The REPL user-interface is written in Emacs Lisp,
which gives more Emacs-integration than the traditional ‘comint’-based
Lisp interaction:

   • Conditions signalled in REPL expressions are debugged with SLDB.
   • Return values are distinguished from printed output by separate
     Emacs faces (colours).
   • Emacs manages the REPL prompt with markers.  This ensures that Lisp
     output is inserted in the right place, and doesn’t get mixed up
     with user input.

   To load the REPL use ‘(add-to-list 'slime-contribs 'slime-repl)’ in
your ‘.emacs’.

‘C-c C-z’
‘M-x slime-switch-to-output-buffer’
     Select the output buffer, preferably in a different window.

‘C-c C-y’
‘M-x slime-call-defun’
     Insert a call to the function defined around point into the REPL.

‘C-c C-j’
‘M-x slime-eval-last-expression-in-repl’
     Inserts the last expression to the REPL and evaluates it there.
     Switches to the current package of the source buffer for the
     duration.  If used with a prefix argument, doesn’t switch back
     afterwards.

* Menu:

* REPL commands::
* Input Navigation::
* Shortcuts::


File: slime.info,  Node: REPL commands,  Next: Input Navigation,  Up: REPL

8.2.1 REPL commands
-------------------

‘RET’
‘M-x slime-repl-return’
     Evaluate the current input in Lisp if it is complete.  If
     incomplete, open a new line and indent.  If a prefix argument is
     given then the input is evaluated without checking for
     completeness.

‘C-RET’
‘M-x slime-repl-closing-return’
     Close any unmatched parenthesis and then evaluate the current input
     in Lisp.  Also bound to ‘M-RET’.

‘TAB’
‘M-x slime-indent-and-complete-symbol’
     Indent the current line and perform symbol completion.

‘C-j’
‘M-x slime-repl-newline-and-indent’
     Open and indent a new line.

‘C-a’
‘M-x slime-repl-bol’
     Go to the beginning of the line, but stop at the REPL prompt.

‘C-c C-c’
‘M-x slime-interrupt’
     Interrupt the Lisp process with ‘SIGINT’.

‘C-c M-o’
‘M-x slime-repl-clear-buffer’
     Clear the entire buffer, leaving only a prompt.

‘C-c C-o’
‘M-x slime-repl-clear-output’
     Remove the output and result of the previous expression from the
     buffer.


File: slime.info,  Node: Input Navigation,  Next: Shortcuts,  Prev: REPL commands,  Up: REPL

8.2.2 Input navigation
----------------------

The input navigation (a.k.a.  history) commands are modelled after
‘coming’-mode.  Be careful if you are used to Bash-like keybindings:
‘M-p’ and ‘M-n’ use the current input as search pattern and only work
Bash-like if the current line is empty.  ‘C-<up>’ and ‘C-<up>’ work like
the up and down keys in Bash.

‘C-<up>, M-x slime-repl-forward-input’
‘C-<down>, M-x slime-repl-backward-input’
     Go to the next/previous history item.

‘M-n, M-x slime-repl-next-input’
‘M-p, M-x slime-repl-previous-input’
     Search the next/previous item in the command history using the
     current input as search pattern.  If ‘M-n’/‘M-n’ is typed two times
     in a row, the second invocation uses the same search pattern (even
     if the current input has changed).

‘M-s, M-x slime-repl-next-matching-input’
‘M-r, M-x slime-repl-previous-matching-input’
     Search forward/reverse through command history with regex

‘C-c C-n, M-x slime-repl-next-prompt’
‘C-c C-p, M-x slime-repl-previous-prompt’
     Move between the current and previous prompts in the REPL buffer.
     Pressing RET on a line with old input copies that line to the
     newest prompt.

   The variable ‘slime-repl-wrap-history’ controls wrap around
behaviour, i.e.  whether cycling should restart at the beginning of the
history if the end is reached.


File: slime.info,  Node: Shortcuts,  Prev: Input Navigation,  Up: REPL

8.2.3 Shortcuts
---------------

“Shortcuts” are a special set of REPL commands that are invoked by name.
To invoke a shortcut you first press ‘,’ (comma) at the REPL prompt and
then enter the shortcut’s name when prompted.

   Shortcuts deal with things like switching between directories and
compiling and loading Lisp systems.  The set of shortcuts is listed
below, and you can also use the ‘help’ shortcut to list them
interactively.

‘change-directory (aka !d, cd)’
     Change the current directory.

‘change-package (aka !p, in, in-package)’
     Change the current package.

‘compile-and-load (aka cl)’
     Compile (if necessary) and load a lisp file.

‘defparameter (aka !)’
     Define a new global, special, variable.

‘disconnect’
     Disconnect all connections.

‘help (aka ?)’
     Display the help.

‘pop-directory (aka -d)’
     Pop the current directory.

‘pop-package (aka -p)’
     Pop the top of the package stack.

‘push-directory (aka +d, pushd)’
     Push a new directory onto the directory stack.

‘push-package (aka +p)’
     Push a package onto the package stack.

‘pwd’
     Show the current directory.

‘quit’
     Quit the current Lisp.

‘resend-form’
     Resend the last form.

‘restart-inferior-lisp’
     Restart *inferior-lisp* and reconnect SLIME.

‘sayoonara’
     Quit all Lisps and close all SLIME buffers.


File: slime.info,  Node: slime-mrepl,  Next: inferior-slime-mode,  Prev: REPL,  Up: Contributed Packages

8.3 Multiple REPLs
==================

The ‘slime-mrepl’ package adds support for multiple listener buffers.
The command ‘M-x slime-new-mrepl’ creates a new buffer.  In a
multi-threaded Lisp, each listener is associated with a separate thread.
In a single-threaded Lisp it’s also possible to create multiple listener
buffers but the commands are executed sequentially by the same process.


File: slime.info,  Node: inferior-slime-mode,  Next: Compound Completion,  Prev: slime-mrepl,  Up: Contributed Packages

8.4 ‘inferior-slime-mode’
=========================

The ‘inferior-slime-mode’ is a minor mode is intended to use with the
‘*inferior-lisp*’ lisp buffer.  It provides some of the SLIME commands,
like symbol completion and documentation lookup.  It also tracks the
current directory of the Lisp process.  To install it, add something
like this to user ‘.emacs’:

     (add-to-list 'slime-contribs 'inferior-slime)

‘M-x inferior-slime-mode’
     Turns inferior-slime-mode on or off.

   The variable ‘inferior-slime-mode-map’ contains the extra
keybindings.


File: slime.info,  Node: Compound Completion,  Next: Fuzzy Completion,  Prev: inferior-slime-mode,  Up: Contributed Packages

8.5 Compound Completion
=======================

The package ‘slime-c-p-c’ provides a different symbol completion
algorithm, which performs completion “in parallel” over the
hyphen-delimited sub-words of a symbol name.  (1) Formally this means
that “‘a-b-c’” can complete to any symbol matching the regular
expression “‘^a.*-b.*-c.*’” (where “dot” matches anything but a hyphen).
Examples give a more intuitive feeling:
   • ‘m-v-b’ completes to ‘multiple-value-bind’.
   • ‘w-open’ is ambiguous: it completes to either ‘with-open-file’ or
     ‘with-open-stream’.  The symbol is expanded to the longest common
     completion (‘with-open-’) and the point is placed at the first
     point of ambiguity, which in this case is the end.
   • ‘w--stream’ completes to ‘with-open-stream’.

   The variable ‘slime-c-p-c-unambiguous-prefix-p’ specifies where point
should be placed after completion.  E.g.  the possible completions for
‘f-o’ are ‘finish-output’ and ‘force-output’.  By the default point is
moved after the ‘f’, because that is the unambiguous prefix.  If
‘slime-c-p-c-unambiguous-prefix-p’ is nil, point moves to the end of the
inserted text, after the ‘o’ in this case.

   In addition, ‘slime-c-p-c’ provides completion for character names
(mostly useful for Unicode-aware implementations):

     CL-USER> #\Sp<TAB>

   Here SLIME will usually complete the character to ‘#\Space’, but in a
Unicode-aware implementation, this might provide the following
completions:
     Space                              Space
     Sparkle                            Spherical_Angle
     Spherical_Angle_Opening_Left       Spherical_Angle_Opening_Up

   The package ‘slime-c-p-c’ also provides context-sensitive completion
for keywords.  Example:

     CL-USER> (find 1 '(1 2 3) :s<TAB>

   Here SLIME will complete ‘:start’, rather than suggesting all
ever-interned keywords starting with ‘:s’.

‘C-c C-s’
‘M-x slime-complete-form’
     Looks up and inserts into the current buffer the argument list for
     the function at point, if there is one.  More generally, the
     command completes an incomplete form with a template for the
     missing arguments.  There is special code for discovering extra
     keywords of generic functions and for handling ‘make-instance’,
     ‘defmethod’, and many other functions.  Examples:

          (subseq "abc" <C-c C-s>
            --inserts--> start [end])
          (find 17 <C-c C-s>
            --inserts--> sequence :from-end from-end :test test
                         :test-not test-not :start start :end end
                         :key key)
          (find 17 '(17 18 19) :test #'= <C-c C-s>
            --inserts--> :from-end from-end
                         :test-not test-not :start start :end end
                         :key key)
          (defclass foo () ((bar :initarg :bar)))
          (defmethod print-object <C-c C-s>
            --inserts-->   (object stream)
                         body...)
          (defmethod initialize-instance :after ((object foo) &key blub))
          (make-instance 'foo <C-c C-s>
            --inserts--> :bar bar :blub blub initargs...)

   ---------- Footnotes ----------

   (1) This style of completion is modelled on ‘completer.el’ by Chris
McConnell.  That package is bundled with ILISP.


File: slime.info,  Node: Fuzzy Completion,  Next: slime-autodoc-mode,  Prev: Compound Completion,  Up: Contributed Packages

8.6 Fuzzy Completion
====================

The package ‘slime-fuzzy’ implements yet another symbol completion
heuristic.

‘C-c M-i’
‘M-x slime-fuzzy-complete-symbol’
     Presents a list of likely completions to choose from for an
     abbreviation at point.  If you set the variable
     ‘slime-complete-symbol-function’ to this command, fuzzy completion
     will also be used for ‘M-TAB’.

8.6.1 The Algorithm
-------------------

It attempts to complete a symbol all at once, instead of in pieces.  For
example, “mvb” will find “‘multiple-value-bind’” and “norm-df” will find
“‘least-positive-normalized-double-float’”.

   The algorithm tries to expand every character in various ways and
rates the list of possible completions with the following heuristic.

   Letters are given scores based on their position in the string.
Letters at the beginning of a string or after a prefix letter at the
beginning of a string are scored highest.  Letters after a word
separator such as #\- are scored next highest.  Letters at the end of a
string or before a suffix letter at the end of a string are scored
medium, and letters anywhere else are scored low.

   If a letter is directly after another matched letter, and its
intrinsic value in that position is less than a percentage of the
previous letter’s value, it will use that percentage instead.

   Finally, a small scaling factor is applied to favor shorter matches,
all other things being equal.

8.6.2 Duplicate Symbols
-----------------------

In case a symbol is accessible via several packages, duplicate symbol
filter specified via ‘*fuzzy-duplicate-symbol-filter*’ swank variable is
applied.  ‘:nearest-package’ value specifies that only symbols in the
package with highest score should be kept.  ‘:home-package’ specifies
that only the match that represents the home package of the symbol is
used, and ‘:all’ value specifies that duplicate symbol filter mode
should be turned off.

   To specify a custom filter, set ‘*fuzzy-duplicate-symbol-filter*’ to
a function accepting three arguments: the name of package being
examined, the list of names of all packages being examined with packages
with highest matching score listed first and an ‘equal’ hash-table that
is shared between calls to the function and can be used for
deduplication purposes.  The function should return a deduplication
filter function which accepts a symbol and returns true if the symbol
should be kept.

   For example, the effect of ‘:nearest-package’ can be also achieved by
specifying the following custom filter in ‘~/.swank.lisp’:
     (setf *fuzzy-duplicate-symbol-filter*
           (lambda (cur-package all-packages dedup-table)
             (declare (ignore cur-package all-packages))
             (lambda (symbol)
                (unless (gethash (symbol-name symbol) dedup-table)
                   (setf (gethash (symbol-name symbol) dedup-table) t)))))
   And instead of ‘:home-package’, the following can be used:
     (setf *fuzzy-duplicate-symbol-filter*
           (lambda (cur-package all-packages dedup-table)
             (declare (ignore dedup-table))
             (let ((packages (mapcar #'find-package
                                     (remove cur-package all-packages))))
               (lambda (symbol)
                 (not (member (symbol-package symbol) packages))))))


File: slime.info,  Node: slime-autodoc-mode,  Next: ASDF,  Prev: Fuzzy Completion,  Up: Contributed Packages

8.7 ‘slime-autodoc-mode’
========================

Autodoc mode is an additional minor-mode for automatically showing
information about symbols near the point.  For function names the
argument list is displayed, and for global variables, the value.
Autodoc is implemented by means of ‘eldoc-mode’ of Emacs.

   The mode can be enabled by default in your ‘~/.emacs’:
     (add-to-list 'slime-contribs 'slime-autodoc)

‘M-x slime-arglist NAME’
     Show the argument list of the function NAME.

‘M-x slime-autodoc-mode’
     Toggles autodoc-mode on or off according to the argument, and
     toggles the mode when invoked without argument.
‘C-c C-d a’
‘M-x slime-autodoc-manually’
     Like slime-autodoc, but when called twice, or after slime-autodoc
     was already automatically called, display multiline arglist.

   If the variable ‘slime-use-autodoc-mode’ is set (default), Emacs
starts a timer, otherwise the information is only displayed after
pressing SPC.

   If ‘slime-autodoc-use-multiline-p’ is set to non-nil, allow long
autodoc messages to resize echo area display.

   ‘slime-autodoc-mode-string’ is a string that will be displayed in the
mode line when autodoc-mode is enabled, or nil, if you prefer no
indication.  You can customize this variable.


File: slime.info,  Node: ASDF,  Next: Banner,  Prev: slime-autodoc-mode,  Up: Contributed Packages

8.8 ASDF
========

ASDF is a popular “system construction tool”.  The package ‘slime-asdf’
provides some commands to load and compile such systems from Emacs.
ASDF itself is not included with SLIME; you have to load that yourself
into your Lisp.  In particular, you must load ASDF before you connect,
otherwise you will get errors about missing symbols.

‘M-x slime-load-system NAME’
     Compile and load an ASDF system.  The default system name is taken
     from the first file matching *.asd in the current directory.
‘M-x slime-reload-system NAME’
     Recompile and load an ASDF system without recompiling its
     dependencies.
‘M-x slime-open-system NAME &optional LOAD’
     Open all files in a system, optionally load it if LOAD is non-nil.
‘M-x slime-browse-system NAME’
     Browse files in a system using Dired.
‘M-x slime-delete-system-fasls NAME’
     Delete FASLs produced by compiling a system.
‘M-x slime-rgrep-system NAME REGEXP’
     Run ‘rgrep’ on the base directory of an ASDF system.
‘M-x slime-isearch-system NAME’
     Run ‘isearch-forward’ on the files of an ASDF system.
‘M-x slime-query-replace-system NAME FROM TO &OPTIONAL DELIMITED’
     Run ‘query-replace’ on an ASDF system.
   The package also installs some new REPL shortcuts (*note
Shortcuts::):

‘load-system’
     Compile (as needed) and load an ASDF system.
‘reload-system’
     Recompile and load an ASDF system.
‘compile-system’
     Compile (but not load) an ASDF system.
‘force-compile-system’
     Recompile (but not load) an ASDF system.
‘force-load-system’
     Recompile and load an ASDF system.
‘open-system’
     Open all files in a system.
‘browse-system’
     Browse files in a system using Dired.
‘delete-system-fasls’
     Delete FASLs produced by compiling a system.


File: slime.info,  Node: Banner,  Next: Editing Commands,  Prev: ASDF,  Up: Contributed Packages

8.9 Banner
==========

The package ‘slime-banner’ installs a window header line ( *note
(elisp)Header Lines::.)  in the REPL buffer.  It also runs an animation
at startup.

   By setting the variable ‘slime-startup-animation’ to nil you can
disable the animation respectively with the variable
‘slime-header-line-p’ the header line.


File: slime.info,  Node: Editing Commands,  Next: Fancy Inspector,  Prev: Banner,  Up: Contributed Packages

8.10 Editing Commands
=====================

The package ‘slime-editing-commands’ provides some commands to edit Lisp
expressions.

‘C-c M-q’
‘M-x slime-reindent-defun’
     Re-indents the current defun, or refills the current paragraph.  If
     point is inside a comment block, the text around point will be
     treated as a paragraph and will be filled with ‘fill-paragraph’.
     Otherwise, it will be treated as Lisp code, and the current defun
     will be reindented.  If the current defun has unbalanced parens, an
     attempt will be made to fix it before reindenting.

‘C-c C-]’
‘M-x slime-close-all-parens-in-sexp’
     Balance parentheses of open s-expressions at point.  Insert enough
     right parentheses to balance unmatched left parentheses.  Delete
     extra left parentheses.  Reformat trailing parentheses
     Lisp-stylishly.

     If REGION is true, operate on the region.  Otherwise operate on the
     top-level sexp before point.

‘M-x slime-insert-balanced-comments’
     Insert a set of balanced comments around the s-expression
     containing the point.  If this command is invoked repeatedly
     (without any other command occurring between invocations), the
     comment progressively moves outward over enclosing expressions.  If
     invoked with a positive prefix argument, the s-expression arg
     expressions out is enclosed in a set of balanced comments.

‘M-C-a’
‘M-x slime-beginning-of-defun’
‘M-C-e’
‘M-x slime-end-of-defun’


File: slime.info,  Node: Fancy Inspector,  Next: Presentations,  Prev: Editing Commands,  Up: Contributed Packages

8.11 Fancy Inspector
====================

An alternative to default inspector is provided by the package
‘slime-fancy-inspector’.  This inspector knows a lot about CLOS objects
and methods.  It provides many “actions” that can be selected to invoke
Lisp code on the inspected object.  For example, to present a generic
function the inspector shows the documentation in plain text and
presents each method with both a hyperlink to inspect the method object
and a “remove method” action that you can invoke interactively.  The
key-bindings are the same as for the basic inspector (*note
Inspector::).


File: slime.info,  Node: Presentations,  Next: Typeout frames,  Prev: Fancy Inspector,  Up: Contributed Packages

8.12 Presentations
==================

A “presentation”(1) in SLIME is a region of text associated with a Lisp
object.  Right-clicking on the text brings up a menu with operations for
the particular object.  Some operations, like inspecting, are available
for all objects, but the object may also have specialized operations.
For instance, pathnames have a dired operation.

   More importantly, it is possible to cut and paste presentations
(i.e., Lisp objects, not just their printed presentation), using all
standard Emacs commands.  This way it is possible to cut and paste the
results of previous computations in the REPL. This is of particular
importance for unreadable objects.

   The package ‘slime-presentations’ installs presentations in the REPL,
i.e.  the results of evaluation commands become presentations.  In this
way, presentations generalize the use of the standard Common Lisp REPL
history variables ‘*’, ‘**’, ‘***’.  Example:

     CL-USER> (find-class 'standard-class)
     _#<STANDARD-CLASS STANDARD-CLASS>_
     CL-USER>

   Presentations appear in red color in the buffer.  (In this manual, we
indicate the presentations _like this_.)  Using standard Emacs commands,
the presentation can be copied to a new input in the REPL:

     CL-USER> (eql '_#<STANDARD-CLASS STANDARD-CLASS>_
                   '_#<STANDARD-CLASS STANDARD-CLASS>_)
     _T_

   Note that standard evaluation and quoting rules still apply.  So if a
presentation is a list, it needs to be quoted in an evaluated context to
avoid treating it as a function call:

     CL-USER> (list (find-class 'standard-class) 2 3 4)
     _(#<STANDARD-CLASS STANDARD-CLASS> 2 3 4)_
     CL-USER> _(#<STANDARD-CLASS STANDARD-CLASS> 2 3 4)_
     ; Funcall of #<STANDARD-CLASS STANDARD-CLASS> which is a non-function.
     ; Evaluation aborted.
     CL-USER> '_(#<STANDARD-CLASS STANDARD-CLASS> 2 3 4)_
     (#<STANDARD-CLASS STANDARD-CLASS> 2 3 4)

   When you copy an incomplete presentation or edit the text within a
presentation, the presentation changes to plain text, losing the
association with a Lisp object.  In the buffer, this is indicated by
changing the color of the text from red to black.  This can be undone.

   Presentations are also available in the inspector (all inspectable
parts are presentations) and the debugger (all local variables are
presentations).  This makes it possible to evaluate expressions in the
REPL using objects that appear in local variables of some active
debugger frame; this can be more convenient than using ‘M-x
sldb-eval-in-frame’.  *Warning:* The presentations that stem from the
inspector and debugger are only valid as long as the corresponding
buffers are open.  Using them later can cause errors or confusing
behavior.

   For some Lisp implementations you can also install the package
‘slime-presentation-streams’, which enables presentations on the Lisp
‘*standard-output*’ stream and similar streams.  This means that not
only results of computations, but also some objects that are printed to
the standard output (as a side-effect of the computation) are associated
with presentations.  Currently, all unreadable objects and pathnames get
printed as presentations.

     CL-USER> (describe (find-class 'standard-object))
     _#<STANDARD-CLASS STANDARD-OBJECT>_ is an instance of
         _#<STANDARD-CLASS STANDARD-CLASS>_:
      The following slots have :INSTANCE allocation:
       PLIST                   NIL
       FLAGS                   1
       DIRECT-METHODS          ((_#<STANDARD-METHOD
                                   SWANK::ALL-SLOTS-FOR-INSPECTOR
                                   (STANDARD-OBJECT T)>_
       ...

   Again, this makes it possible to inspect and copy-paste these
objects.

   In addition to the standard Emacs commands, there are several
keyboard commands, a menu-bar menu, and a context menu to operate on
presentations.  We describe the keyboard commands below; they are also
shown in the menu-bar menu.

‘C-c C-v SPC’
‘M-x slime-mark-presentation’
     If point is within a presentation, move point to the beginning of
     the presentation and mark to the end of the presentation.  This
     makes it possible to copy the presentation.

‘C-c C-v w’
‘M-x slime-copy-presentation-at-point-to-kill-ring’
     If point is within a presentation, copy the surrounding
     presentation to the kill ring.

‘C-c C-v r’
‘M-x slime-copy-presentation-at-point-to-repl’
     If point is within a presentation, copy the surrounding
     presentation to the REPL.

‘C-c C-v d’
‘M-x slime-describe-presentation-at-point’
     If point is within a presentation, describe the associated object.

‘C-c C-v i’
‘M-x slime-inspect-presentation-at-point’
     If point is within a presentation, inspect the associated object
     with the SLIME inspector.

‘C-c C-v n’
‘M-x slime-next-presentation’
     Move point to the next presentation in the buffer.

‘C-c C-v p’
‘M-x slime-previous-presentation’
     Move point to the previous presentation in the buffer.

   Similar operations are also possible from the context menu of every
presentation.  Using ‘mouse-3’ on a presentation, the context menu opens
and offers various commands.  For some objects, specialized commands are
also offered.  Users can define additional specialized commands by
defining a method for ‘swank::menu-choices-for-presentation’.

   *Warning:* On Lisp implementations without weak hash tables, all
objects associated with presentations are protected from garbage
collection.  If your Lisp image grows too large because of that, use
‘C-c C-v M-o’ (‘slime-clear-presentations’) to remove these
associations.  You can also use the command ‘C-c M-o’
(‘slime-repl-clear-buffer’), which both clears the REPL buffer and
removes all associations of objects with presentations.

   *Warning:* Presentations can confuse new users.

     CL-USER> (cons 1 2)
     _(1 . 2)_
     CL-USER> (eq '_(1 . 2)_ '_(1 . 2)_)
     _T_

   One could have expected ‘NIL’ here, because it looks like two fresh
cons cells are compared regarding object identity.  However, in the
example the presentation ‘_(1 . 2)_’ was copied twice to the REPL. Thus
‘EQ’ is really invoked with the same object, namely the cons cell that
was returned by the first form entered in the REPL.

   ---------- Footnotes ----------

   (1) Presentations are a feature originating from the Lisp machines.
It was possible to define ‘present’ methods specialized to various
devices, e.g.  to draw an object to bitmapped screen or to write some
text to a character stream.


File: slime.info,  Node: Typeout frames,  Next: TRAMP,  Prev: Presentations,  Up: Contributed Packages

8.13 Typeout frames
===================

A “typeout frame” is a special Emacs frame which is used instead of the
echo area (minibuffer) to display messages from SLIME commands.  This is
an optional feature.  The advantage of a typeout frame over the echo
area is that it can hold more text, it can be scrolled, and its contents
don’t disappear when you press a key.  All potentially long messages are
sent to the typeout frame, such as argument lists, macro expansions, and
so on.

‘M-x slime-ensure-typeout-frame’
     Ensure that a typeout frame exists, creating one if necessary.

   If the typeout frame is closed then the echo area will be used again
as usual.

   To have a typeout frame created automatically at startup you should
load the ‘slime-typeout-frame’ package.  (*note Loading Contribs::.)

   The variable ‘slime-typeout-frame-properties’ specifies the height
and possibly other properties of the frame.  Its value is passed to
‘make-frame’.  (*note (elisp)Creating Frames::.)


File: slime.info,  Node: TRAMP,  Next: Documentation Links,  Prev: Typeout frames,  Up: Contributed Packages

8.14 TRAMP
==========

The package ‘slime-tramp’ provides some functions to set up filename
translations for TRAMP. (*note Setting up pathname translations::)


File: slime.info,  Node: Documentation Links,  Next: Xref and Class Browser,  Prev: TRAMP,  Up: Contributed Packages

8.15 Documentation Links
========================

For certain error messages, SBCL includes references to the ANSI
Standard or the SBCL User Manual.  The ‘slime-references’ package turns
those references into clickable links.  This makes finding the
referenced section of the HyperSpec much easier.


File: slime.info,  Node: Xref and Class Browser,  Next: Highlight Edits,  Prev: Documentation Links,  Up: Contributed Packages

8.16 Xref and Class Browser
===========================

A rudimentary class browser is provided by the ‘slime-xref-browser’
package.

‘M-x slime-browse-classes’
     This command asks for a class name and displays inheritance tree of
     for the class.

‘M-x slime-browse-xrefs’
     This command prompts for a symbol and the kind of cross reference,
     e.g.  callers.  The cross reference tree rooted at the symbol is
     then then displayed.


File: slime.info,  Node: Highlight Edits,  Next: Scratch Buffer,  Prev: Xref and Class Browser,  Up: Contributed Packages

8.17 Highlight Edits
====================

‘slime-highlight-edits’ is a minor mode to highlight those regions in a
Lisp source file which are modified.  This is useful to quickly find
those functions which need to be recompiled (with ‘C-c C-c’)

‘M-x slime-highlight-edits-mode’
     Turns ‘slime-highlight-edits-mode’ on or off.


File: slime.info,  Node: Scratch Buffer,  Next: SLIME Trace Dialog,  Prev: Highlight Edits,  Up: Contributed Packages

8.18 Scratch Buffer
===================

The SLIME scratch buffer, in contrib package ‘slime-scratch’, imitates
Emacs’ usual ‘*scratch*’ buffer.  If ‘slime-scratch-file’ is set, it is
used to back the scratch buffer, making it persistent.  The buffer is
like any other Lisp buffer, except for the command bound to ‘C-j’.

‘C-j’
‘M-x slime-eval-print-last-expression’
     Evaluate the expression sexp before point and insert print value
     into the current buffer.

‘M-x slime-scratch’
     Create a ‘*slime-scratch*’ buffer.  In this buffer you can enter
     Lisp expressions and evaluate them with ‘C-j’, like in Emacs’s
     ‘*scratch*’ buffer.


File: slime.info,  Node: SLIME Trace Dialog,  Next: slime-sprof,  Prev: Scratch Buffer,  Up: Contributed Packages

8.19 SLIME Trace Dialog
=======================

The SLIME Trace Dialog, in package ‘slime-trace-dialog’, is a tracing
facility, similar to Common Lisp’s ‘trace’, but interactive rather than
purely textual.  It is an Emacs 24-only contrib.

   You use it just like you would regular ‘trace’: after tracing a
function, calling it causes interesting information about that
particular call to be reported.

   However, instead of printing the trace results to the the
‘*trace-output*’ stream (usually the REPL), the SLIME Trace Dialog
collects and stores them in your lisp environment until, on user’s
request, they are fetched into Emacs and displayed in a dialog-like
interactive view.

   After starting up SLIME, SLIME’s Trace Dialog installs a _Trace_ menu
in the menu-bar of any ‘slime-mode’ buffer and adds two new commands,
with respective key-bindings:

‘C-c M-t’
‘M-x slime-trace-dialog-toggle-trace’
     If point is on a symbol name, toggle tracing of its function
     definition.  If point is not on a symbol, prompt user for a
     function.

     With a ‘C-u’ prefix argument, and if your lisp implementation
     allows it, attempt to decipher lambdas, methods and other
     complicated function signatures.

     The function is traced for the SLIME Trace Dialog only, i.e.  it is
     not found in the list returned by Common Lisp’s ‘trace’.

‘C-c T’
‘M-x slime-trace-dialog’
     Pop to the interactive SLIME Trace Dialog buffer associated with
     the current connection (*note Multiple connections::).

   Consider the (useless) program:

     (defun foo (n) (if (plusp n) (* n (bar (1- n))) 1))
     (defun bar (n) (if (plusp n) (* n (foo (1- n))) 1))

   After tracing both ‘foo’ and ‘bar’ with ‘C-c M-t’, calling call ‘(foo
2)’ and moving to the trace dialog with ‘C-c T’, we are presented with
this buffer.

     Traced specs (2)                                  [refresh]
                                                       [untrace all]
       [untrace] common-lisp-user::bar
       [untrace] common-lisp-user::foo

     Trace collection status (3/3)                     [refresh]
                                                       [clear]

        0 - common-lisp-user::foo
          | > 2
          | < 2
        1 `--- common-lisp-user::bar
             | > 1
             | < 1
        2    `-- common-lisp-user::foo
                  > 0
                  < 1

   The dialog is divided into sections displaying the functions already
traced, the trace collection progress and the actual trace tree that
follow your program’s logic.  The most important key-bindings in this
buffer are:

‘g’
‘M-x slime-trace-dialog-fetch-status’
     Update information on the trace collection and traced specs.
‘G’
‘M-x slime-trace-dialog-fetch-traces’
     Fetch the next batch of outstanding (not fetched yet) traces.  With
     a ‘C-u’ prefix argument, repeat until no more outstanding traces.
‘C-k’
‘M-x slime-trace-dialog-clear-fetched-traces’
     Prompt for confirmation, then clear all traces, both fetched and
     outstanding.

   The arguments and return values below each entry are interactive
buttons.  Clicking them opens the inspector (*note Inspector::).
Invoking ‘M-RET’ (‘slime-trace-dialog-copy-down-to-repl’) returns them
to the REPL for manipulation (*note REPL::).  The number left of each
entry indicates its absolute position in the calling order, which might
differ from display order in case multiple threads call the same traced
function.

   ‘slime-trace-dialog-hide-details-mode’ hides arguments and return
values so you can concentrate on the calling logic.  Additionally,
‘slime-trace-dialog-autofollow-mode’ will automatically display
additional detail about an entry when the cursor moves over it.


File: slime.info,  Node: slime-sprof,  Next: SLIME Enhanced M-.,  Prev: SLIME Trace Dialog,  Up: Contributed Packages

8.20 ‘slime-sprof’
==================

‘slime-sprof’ is a package for integrating SBCL’s statistical profiler,
sb-sprof.

   The variable ‘slime-sprof-exclude-swank’ controls whether to display
swank functions.  The default value is NIL.

‘M-x slime-sprof-start’
     Start profiling.

‘M-x slime-sprof-stop’
     Stop profiling.
‘M-x slime-sprof-report’
     Report results of the profiling.

   The following keys are defined in slime-sprof-browser mode:

‘RET’
‘M-x slime-sprof-browser-toggle’
     Expand / collapse function details (callers, calls to)
‘v’
‘M-x slime-sprof-browser-view-source’
     View function sources.
‘d’
‘M-x slime-sprof-browser-disassemble-function’
     Disassemble function.
‘s’
‘M-x slime-sprof-toggle-swank-exclusion’
     Toggle exclusion of swank functions from the report.


File: slime.info,  Node: SLIME Enhanced M-.,  Next: slime-fancy,  Prev: slime-sprof,  Up: Contributed Packages

8.21 SLIME Enhanced M-.
=======================

‘slime-mdot-fu’ enables meta-point to jump to local variables bound with
‘let’ and ‘let*’, in addition to function bindings declared with ‘flet’
and ‘labels’, via ‘slime-edit-local-definition’.


File: slime.info,  Node: slime-fancy,  Next: Quicklisp,  Prev: SLIME Enhanced M-.,  Up: Contributed Packages

8.22 Meta package: ‘slime-fancy’
================================

‘slime-fancy’ is a meta package which loads a combination of the most
popular packages.  It is the default value of ‘slime-contribs’, thus it
is loaded by default.


File: slime.info,  Node: Quicklisp,  Prev: slime-fancy,  Up: Contributed Packages

8.23 Quicklisp
==============

The package ‘slime-quicklisp’ adds support for loading Quicklisp systems
in the REPL buffer.  In order for this to work, Quicklisp should have
already been loaded in the Lisp implementation.  Refer to
<https://www.quicklisp.org/> for Quicklisp installation details.

   The package installs the following REPL shortcuts (*note
Shortcuts::):

‘quicklisp-quickload (aka ql)’
     Load a Quicklisp system.


File: slime.info,  Node: Credits,  Next: Key Index,  Prev: Contributed Packages,  Up: Top

9 Credits
*********

_The soppy ending..._

Hackers of the good hack
========================

SLIME is an Extension of SLIM by Eric Marsden.  At the time of writing,
the authors and code-contributors of SLIME are:

Helmut Eller             Tobias C. Rittweiler     Stas Boukarev
Luke Gorrie              Matthias Koeppe          Luís Oliveira
Nikodemus Siivola        Marco Baringer           João Távora
Alan Ruttenberg          Henry Harrington         Mark Evenson
Christophe Rhodes        Edi Weitz                Martin Simmons
Juho Snellman            Attila Lendvai           Peter Seibel
Geo Carncross            Douglas Crosher          Daniel Kochmanski
Gábor Melis              Daniel Barlow            Wolfgang Jenkner
Stelian Ionescu          Michael Weber            Didier Verna
Lawrence Mitchell        Anton Kovalenko          Terje Norderhaug
Jan Moringen             Brian Downing            Bill Clementson
Andras Simon             Adlai Chandrasekhar      Zach Beane
Ivan Shvedunov           Francois-Rene Rideau     Espen Wiborg
António Menezes Leitão   Utz-Uwe Haus             Thomas Schilling
Thomas F. Burdick        Takehiko Abe             Sébastien Villemot
Richard M Kreuter        Raymond Toy              Matthew Danish
Mark Harig               James Bielman            Harald Hanche-Olsen
Ariel Badichi            Andreas Fuchs            Willem Broekema
Taylor R. Campbell       Phil Hargett             Paulo Madeira
Lars Magne               John Paul Wallington     Joerg Hoehle
Ingebrigtsen
David Reitter            Bryan O’Connor           Alexander Artemenko
Alan Shutko              Ursa americanus          Travis Cross
                         kermodei
Tobias Rittweiler        Tiago Maduro-Dias        Stefan Kamphausen
Sean O’Rourke            Robert Lehr              Robert E. Brown
Philipp Marek            Peter S. Housel          Nathan Trapuzzano
Nathan Bird              Luís Borges de           Jouni K Seppanen
                         Oliveira
Jon Oddie                Ivan Toshkov             Ian Eslick
Geoff Wozniak            Gary King                Fice T
Eric Blood               Eduardo Muñoz            Douglas Katzman
Christophe Junke         Christian Schafmeister   Christian Lynbech
Chris Capel              Charles Zhang            Bjørn Nordbø
Bart Botta               Anton Vodonosov          Alexey Dejneka
Alan Caulkins            Yu-Chiang Hsu            Yaroslav Kavenchuk
YOKOTA Yuki              Wolfgang Mederle         Wojciech Kaczmarek
William Bland            Vitaly Mayatskikh        Tomas Zellerin
Tom Pierce               Tim Daly Jr.             Syohei YOSHIDA
Sven Van Caekenberghe    Svein Ove Aas            Steve Smith
StanisBaw Halik          Sergey Kostyaev          Samuel Freilich
Russell McManus          Russ Tyndall             Rui Patrocínio
Robert P. Goldman        Robert Macomber          Robert Brown
Reini Urban              R. Matthew Emerson       Peter Feigl
Peter                    Pawel Ostrowski          Paul Donnelly
Paul Collins             Olof-Joachim Frahm       Neil Van Dyke
NIIMI Satoshi            Mészáros Levente         Mikel Bancroft
Michał Herda             Michael White            Matthew Kennedy
Matthew D. Swank         Matt Pillsbury           Masayuki Onjo
Mark Wooding             Mark Karpov              Mark H. David
Marco Monteiro           Lynn Quam                Levente Mészáros
Leo Liu                  Lasse Rasinen            Knut Olav Bøhmer
Kai Kaminski             Julian Stecklina         Juergen Gmeiner
Jon Allen Boone          John Stracke             John Smith
Johan Bockgård           Joe Robertson            Jim Newton
Javier Olaechea          Jan Rychter              James McIlree
Jack Pugmire             Ivan Sokolov             Ivan Boldyrev
Ignas Mikalajunas        Hannu Koivisto           Graham Dobbins
Gerd Flaig               Gail Zacharias           Frederic Brunel
Eric Timmons             Dustin Long              Dmitry Igrishin
Deokhwan Kim             Denis Budyak             Daniel Koning
Daniel Kochmański        Dan Weinreb              Dan Pierson
Cyrus Harmon             Chris Schafmeister       Cecil Westerhof
Brian Mastenbrook        Brandon Bergren          Bozhidar Batsov
Bob Halley               Barry Fishman            B.Scott Michel
Angelo Rossi             Andrew Myers             Aleksandar Bakic
Alain Picard             Adam Bozanich

   ...  not counting the bundled code from ‘hyperspec.el’, ‘CLOCC’, and
the ‘CMU AI Repository’.

   Many people on the ‘slime-devel’ mailing list have made non-code
contributions to SLIME.  Life is hard though: you gotta send code to get
your name in the manual.  ‘:-)’

Thanks!
=======

We’re indebted to the good people of ‘common-lisp.net’ for their hosting
and help, and for rescuing us from “Sourceforge hell.”

   Implementors of the Lisps that we support have been a great help.
We’d like to thank the CMUCL maintainers for their helpful answers,
Craig Norvell and Kevin Layer at Franz providing Allegro CL licenses for
SLIME development, and Peter Graves for his help to get SLIME running
with ABCL.

   Most of all we’re happy to be working with the Lisp implementors
who’ve joined in the SLIME development: Dan Barlow and Christophe Rhodes
of SBCL, Gary Byers of OpenMCL, and Martin Simmons of LispWorks.  Thanks
also to Alain Picard and Memetrics for funding Martin’s initial work on
the LispWorks backend!


File: slime.info,  Node: Key Index,  Next: Command Index,  Prev: Credits,  Up: Top

Key (Character) Index
*********************

 [index ]
* Menu:

* .:                                     Inspector.           (line  61)
* ::                                     Miscellaneous.       (line  28)
* <:                                     Frame Navigation.    (line  23)
* >:                                     Inspector.           (line  65)
* > <1>:                                 Frame Navigation.    (line  19)
* a:                                     Restarts.            (line   8)
* A:                                     Miscellaneous.       (line  31)
* B:                                     Miscellaneous.       (line  19)
* c:                                     Restarts.            (line  18)
* C:                                     Miscellaneous.       (line  24)
* C-<down>:                              Input Navigation.    (line  14)
* C-<up>:                                Input Navigation.    (line  14)
* C-a:                                   REPL commands.       (line  28)
* C-c ::                                 Evaluation.          (line  33)
* C-c <:                                 Cross-reference.     (line  55)
* C-c >:                                 Cross-reference.     (line  59)
* C-c C-a:                               Other.               (line   8)
* C-c C-b:                               Recovery.            (line   8)
* C-c C-c:                               Compilation.         (line  14)
* C-c C-c <1>:                           Xref buffer commands.
                                                              (line  19)
* C-c C-c <2>:                           Examining frames.    (line  38)
* C-c C-c <3>:                           REPL commands.       (line  32)
* C-c C-d #:                             Documentation.       (line  59)
* C-c C-d A:                             Documentation.       (line  25)
* C-c C-d a:                             slime-autodoc-mode.  (line  22)
* C-c C-d d:                             Documentation.       (line  17)
* C-c C-d f:                             Documentation.       (line  21)
* C-c C-d h:                             Documentation.       (line  44)
* C-c C-d p:                             Documentation.       (line  37)
* C-c C-d z:                             Documentation.       (line  33)
* C-c C-d ~:                             Documentation.       (line  55)
* C-c C-j:                               REPL.                (line  31)
* C-c C-k:                               Compilation.         (line  28)
* C-c C-k <1>:                           Xref buffer commands.
                                                              (line  23)
* C-c C-l:                               Compilation.         (line  44)
* C-c C-m:                               Macro-expansion.     (line   8)
* C-c C-m <1>:                           slime-macroexpansion-minor-mode.
                                                              (line  12)
* C-c C-n:                               Input Navigation.    (line  29)
* C-c C-o:                               REPL commands.       (line  40)
* C-c C-p:                               Evaluation.          (line  41)
* C-c C-p <1>:                           Input Navigation.    (line  29)
* C-c C-r:                               Evaluation.          (line  37)
* C-c C-s:                               Compound Completion. (line  48)
* C-c C-t:                               Disassembly.         (line  12)
* C-c C-u:                               Evaluation.          (line  52)
* C-c C-v:                               Other.               (line   8)
* C-c C-v d:                             Presentations.       (line 107)
* C-c C-v i:                             Presentations.       (line 111)
* C-c C-v n:                             Presentations.       (line 116)
* C-c C-v p:                             Presentations.       (line 120)
* C-c C-v r:                             Presentations.       (line 102)
* C-c C-v SPC:                           Presentations.       (line  91)
* C-c C-v w:                             Presentations.       (line  97)
* C-c C-w b:                             Cross-reference.     (line  34)
* C-c C-w c:                             Cross-reference.     (line  22)
* C-c C-w m:                             Cross-reference.     (line  42)
* C-c C-w r:                             Cross-reference.     (line  30)
* C-c C-w s:                             Cross-reference.     (line  38)
* C-c C-w w:                             Cross-reference.     (line  26)
* C-c C-x c:                             Multiple connections.
                                                              (line  27)
* C-c C-x n:                             Multiple connections.
                                                              (line  33)
* C-c C-x t:                             Multiple connections.
                                                              (line  39)
* C-c C-y:                               REPL.                (line  27)
* C-c C-z:                               REPL.                (line  23)
* C-c C-]:                               Editing Commands.    (line  20)
* C-c E:                                 Evaluation.          (line  46)
* C-c I:                                 Inspector.           (line  16)
* C-c M-c:                               Compilation.         (line  63)
* C-c M-d:                               Disassembly.         (line   8)
* C-c M-i:                               Fuzzy Completion.    (line  11)
* C-c M-k:                               Compilation.         (line  40)
* C-c M-m:                               Macro-expansion.     (line  19)
* C-c M-o:                               REPL commands.       (line  36)
* C-c M-p:                               Recovery.            (line  20)
* C-c M-q:                               Editing Commands.    (line  11)
* C-c M-t:                               SLIME Trace Dialog.  (line  26)
* C-c T:                                 SLIME Trace Dialog.  (line  39)
* C-c ~:                                 Recovery.            (line  15)
* C-j:                                   REPL commands.       (line  24)
* C-j <1>:                               Scratch Buffer.      (line  13)
* C-k:                                   SLIME Trace Dialog.  (line  83)
* C-M-x:                                 Evaluation.          (line  19)
* C-RET:                                 REPL commands.       (line  15)
* C-x 4 .:                               Finding definitions. (line  23)
* C-x 5 .:                               Finding definitions. (line  28)
* C-x C-e:                               Evaluation.          (line  13)
* C-x `:                                 Compilation.         (line  67)
* C-_:                                   slime-macroexpansion-minor-mode.
                                                              (line  26)
* d:                                     Inspector.           (line  27)
* d <1>:                                 Examining frames.    (line  24)
* D:                                     Examining frames.    (line  29)
* d <2>:                                 Multiple connections.
                                                              (line  56)
* d <3>:                                 slime-sprof.         (line  30)
* e:                                     Inspector.           (line  31)
* e <1>:                                 Examining frames.    (line  19)
* g:                                     Inspector.           (line  49)
* g <1>:                                 slime-macroexpansion-minor-mode.
                                                              (line  17)
* g <2>:                                 Multiple connections.
                                                              (line  61)
* g <3>:                                 SLIME Trace Dialog.  (line  76)
* G:                                     SLIME Trace Dialog.  (line  79)
* i:                                     Examining frames.    (line  34)
* l:                                     Inspector.           (line  41)
* M-,:                                   Finding definitions. (line  18)
* M-.:                                   Finding definitions. (line  13)
* M-C-a:                                 Editing Commands.    (line  38)
* M-C-e:                                 Editing Commands.    (line  40)
* M-n:                                   Compilation.         (line  55)
* M-n <1>:                               Frame Navigation.    (line  12)
* M-n <2>:                               Input Navigation.    (line  18)
* M-p:                                   Compilation.         (line  59)
* M-p <1>:                               Frame Navigation.    (line  12)
* M-p <2>:                               Input Navigation.    (line  18)
* M-r:                                   Input Navigation.    (line  25)
* M-RET:                                 Inspector.           (line  69)
* M-s:                                   Input Navigation.    (line  25)
* M-TAB:                                 Completion.          (line  13)
* n:                                     Inspector.           (line  45)
* n <1>:                                 Frame Navigation.    (line   8)
* o:                                     Stepping.            (line  21)
* p:                                     Inspector.           (line  57)
* p <1>:                                 Frame Navigation.    (line   8)
* q:                                     Inspector.           (line  53)
* q <1>:                                 Restarts.            (line  12)
* q <2>:                                 slime-macroexpansion-minor-mode.
                                                              (line  22)
* q <3>:                                 Multiple connections.
                                                              (line  65)
* r:                                     Miscellaneous.       (line   8)
* R:                                     Miscellaneous.       (line  14)
* R <1>:                                 Multiple connections.
                                                              (line  70)
* RET:                                   Xref buffer commands.
                                                              (line  10)
* RET <1>:                               Inspector.           (line  22)
* RET <2>:                               Multiple connections.
                                                              (line  52)
* RET <3>:                               REPL commands.       (line   8)
* RET <4>:                               slime-sprof.         (line  24)
* s:                                     Stepping.            (line  11)
* s <1>:                                 slime-sprof.         (line  33)
* S-TAB:                                 Inspector.           (line  74)
* Space:                                 Xref buffer commands.
                                                              (line  15)
* SPC:                                   Documentation.       (line  12)
* t:                                     Examining frames.    (line  10)
* TAB:                                   Inspector.           (line  74)
* TAB <1>:                               REPL commands.       (line  20)
* v:                                     Inspector.           (line  36)
* v <1>:                                 Examining frames.    (line  14)
* v <2>:                                 slime-sprof.         (line  27)
* x:                                     Stepping.            (line  17)


File: slime.info,  Node: Command Index,  Next: Variable Index,  Prev: Key Index,  Up: Top

Command and Function Index
**************************

 [index ]
* Menu:

* hyperspec-lookup-format:               Documentation.       (line  55)
* hyperspec-lookup-reader-macro:         Documentation.       (line  59)
* inferior-slime-mode:                   inferior-slime-mode. (line  15)
* next-error:                            Compilation.         (line  67)
* sldb-abort:                            Restarts.            (line   8)
* sldb-beginning-of-backtrace:           Frame Navigation.    (line  23)
* sldb-break-with-default-debugger:      Miscellaneous.       (line  19)
* sldb-break-with-system-debugger:       Miscellaneous.       (line  31)
* sldb-continue:                         Restarts.            (line  18)
* sldb-details-down:                     Frame Navigation.    (line  12)
* sldb-details-up:                       Frame Navigation.    (line  12)
* sldb-disassemble:                      Examining frames.    (line  29)
* sldb-down:                             Frame Navigation.    (line   8)
* sldb-end-of-backtrace:                 Frame Navigation.    (line  19)
* sldb-eval-in-frame:                    Examining frames.    (line  19)
* sldb-inspect-condition:                Miscellaneous.       (line  24)
* sldb-inspect-in-frame:                 Examining frames.    (line  34)
* sldb-next:                             Stepping.            (line  17)
* sldb-out:                              Stepping.            (line  21)
* sldb-pprint-eval-in-frame:             Examining frames.    (line  24)
* sldb-quit:                             Restarts.            (line  12)
* sldb-recompile-frame-source:           Examining frames.    (line  38)
* sldb-restart-frame:                    Miscellaneous.       (line   8)
* sldb-return-from-frame:                Miscellaneous.       (line  14)
* sldb-show-source:                      Examining frames.    (line  14)
* sldb-step:                             Stepping.            (line  11)
* sldb-toggle-details:                   Examining frames.    (line  10)
* sldb-up:                               Frame Navigation.    (line   8)
* slime-abort-connection:                Multiple connections.
                                                              (line  79)
* slime-apropos:                         Documentation.       (line  25)
* slime-apropos-all:                     Documentation.       (line  33)
* slime-apropos-package:                 Documentation.       (line  37)
* slime-arglist NAME:                    slime-autodoc-mode.  (line  15)
* slime-autodoc-manually:                slime-autodoc-mode.  (line  22)
* slime-autodoc-mode:                    slime-autodoc-mode.  (line  18)
* slime-beginning-of-defun:              Editing Commands.    (line  38)
* slime-browse-classes:                  Xref and Class Browser.
                                                              (line  10)
* slime-browse-system NAME:              ASDF.                (line  21)
* slime-browse-xrefs:                    Xref and Class Browser.
                                                              (line  14)
* slime-call-defun:                      REPL.                (line  27)
* slime-calls-who:                       Cross-reference.     (line  26)
* slime-cd:                              Recovery.            (line  23)
* slime-close-all-parens-in-sexp:        Editing Commands.    (line  20)
* slime-compile-and-load-file:           Compilation.         (line  28)
* slime-compile-defun:                   Compilation.         (line  14)
* slime-compile-file:                    Compilation.         (line  40)
* slime-compile-region:                  Compilation.         (line  47)
* slime-compiler-macroexpand:            Macro-expansion.     (line  25)
* slime-compiler-macroexpand-1:          Macro-expansion.     (line  22)
* slime-complete-form:                   Compound Completion. (line  48)
* slime-complete-symbol:                 Completion.          (line  13)
* slime-connect:                         Multiple connections.
                                                              (line  73)
* slime-connection-list-make-default:    Multiple connections.
                                                              (line  56)
* slime-copy-presentation-at-point-to-kill-ring: Presentations.
                                                              (line  97)
* slime-copy-presentation-at-point-to-repl: Presentations.    (line 102)
* slime-cycle-connections:               Multiple connections.
                                                              (line  33)
* slime-delete-system-fasls NAME:        ASDF.                (line  23)
* slime-describe-function:               Documentation.       (line  21)
* slime-describe-presentation-at-point:  Presentations.       (line 107)
* slime-describe-symbol:                 Documentation.       (line  17)
* slime-disassemble-symbol:              Disassembly.         (line   8)
* slime-disconnect:                      Multiple connections.
                                                              (line  76)
* slime-edit-definition:                 Finding definitions. (line  13)
* slime-edit-definition-other-frame:     Finding definitions. (line  28)
* slime-edit-definition-other-window:    Finding definitions. (line  23)
* slime-edit-definition-with-etags:      Finding definitions. (line  32)
* slime-edit-value:                      Evaluation.          (line  46)
* slime-end-of-defun:                    Editing Commands.    (line  40)
* slime-ensure-typeout-frame:            Typeout frames.      (line  15)
* slime-eval-defun:                      Evaluation.          (line  19)
* slime-eval-last-expression:            Evaluation.          (line  13)
* slime-eval-last-expression-in-repl:    REPL.                (line  31)
* slime-eval-print-last-expression:      Scratch Buffer.      (line  13)
* slime-eval-region:                     Evaluation.          (line  37)
* slime-expand-1:                        Macro-expansion.     (line   8)
* slime-fuzzy-complete-symbol:           Fuzzy Completion.    (line  11)
* slime-goto-connection:                 Multiple connections.
                                                              (line  52)
* slime-goto-xref:                       Xref buffer commands.
                                                              (line  15)
* slime-highlight-edits-mode:            Highlight Edits.     (line  11)
* slime-hyperspec-lookup:                Documentation.       (line  44)
* slime-indent-and-complete-symbol:      REPL commands.       (line  20)
* slime-insert-balanced-comments:        Editing Commands.    (line  29)
* slime-inspect:                         Inspector.           (line  16)
* slime-inspect-presentation-at-point:   Presentations.       (line 111)
* slime-inspector-copy-down:             Inspector.           (line  69)
* slime-inspector-describe:              Inspector.           (line  27)
* slime-inspector-eval:                  Inspector.           (line  31)
* slime-inspector-fetch-all:             Inspector.           (line  65)
* slime-inspector-next:                  Inspector.           (line  45)
* slime-inspector-next-inspectable-object: Inspector.         (line  74)
* slime-inspector-operate-on-point:      Inspector.           (line  22)
* slime-inspector-pop:                   Inspector.           (line  41)
* slime-inspector-pprint:                Inspector.           (line  57)
* slime-inspector-previous-inspectable-object: Inspector.     (line  74)
* slime-inspector-quit:                  Inspector.           (line  53)
* slime-inspector-reinspect:             Inspector.           (line  49)
* slime-inspector-show-source:           Inspector.           (line  61)
* slime-inspector-toggle-verbose:        Inspector.           (line  36)
* slime-interactive-eval:                Evaluation.          (line  33)
* slime-interactive-eval <1>:            Miscellaneous.       (line  28)
* slime-interrupt:                       Recovery.            (line   8)
* slime-interrupt <1>:                   REPL commands.       (line  32)
* slime-isearch-system NAME:             ASDF.                (line  27)
* slime-list-callees:                    Cross-reference.     (line  59)
* slime-list-callers:                    Cross-reference.     (line  55)
* slime-list-connections:                Multiple connections.
                                                              (line  27)
* slime-list-threads:                    Multiple connections.
                                                              (line  39)
* slime-load-file:                       Compilation.         (line  44)
* slime-load-system NAME:                ASDF.                (line  13)
* slime-macroexpand-1:                   Macro-expansion.     (line  14)
* slime-macroexpand-1-inplace:           slime-macroexpansion-minor-mode.
                                                              (line  12)
* slime-macroexpand-1-inplace <1>:       slime-macroexpansion-minor-mode.
                                                              (line  17)
* slime-macroexpand-all:                 Macro-expansion.     (line  19)
* slime-macroexpand-undo:                slime-macroexpansion-minor-mode.
                                                              (line  26)
* slime-mark-presentation:               Presentations.       (line  91)
* slime-next-note:                       Compilation.         (line  55)
* slime-next-presentation:               Presentations.       (line 116)
* slime-nop:                             Other.               (line   8)
* slime-nop <1>:                         Other.               (line   8)
* slime-open-system NAME &optional LOAD: ASDF.                (line  19)
* slime-pop-find-definition-stack:       Finding definitions. (line  18)
* slime-pprint-eval-last-expression:     Evaluation.          (line  41)
* slime-previous-note:                   Compilation.         (line  59)
* slime-previous-presentation:           Presentations.       (line 120)
* slime-profile-by-substring:            Profiling.           (line  15)
* slime-profile-package:                 Profiling.           (line  13)
* slime-profile-report:                  Profiling.           (line  19)
* slime-profile-reset:                   Profiling.           (line  21)
* slime-profiled-functions:              Profiling.           (line  23)
* slime-pwd:                             Recovery.            (line  27)
* slime-query-replace-system NAME FROM TO &OPTIONAL DELIMITED: ASDF.
                                                              (line  29)
* slime-recompile-all-xrefs:             Xref buffer commands.
                                                              (line  23)
* slime-recompile-xref:                  Xref buffer commands.
                                                              (line  19)
* slime-reindent-defun:                  Editing Commands.    (line  11)
* slime-reload-system NAME:              ASDF.                (line  16)
* slime-remove-notes:                    Compilation.         (line  63)
* slime-repl-backward-input:             Input Navigation.    (line  14)
* slime-repl-bol:                        REPL commands.       (line  28)
* slime-repl-clear-buffer:               REPL commands.       (line  36)
* slime-repl-clear-output:               REPL commands.       (line  40)
* slime-repl-closing-return:             REPL commands.       (line  15)
* slime-repl-forward-input:              Input Navigation.    (line  14)
* slime-repl-newline-and-indent:         REPL commands.       (line  24)
* slime-repl-next-input:                 Input Navigation.    (line  18)
* slime-repl-next-matching-input:        Input Navigation.    (line  25)
* slime-repl-next-prompt:                Input Navigation.    (line  29)
* slime-repl-previous-input:             Input Navigation.    (line  18)
* slime-repl-previous-matching-input:    Input Navigation.    (line  25)
* slime-repl-previous-prompt:            Input Navigation.    (line  29)
* slime-repl-return:                     REPL commands.       (line   8)
* slime-repl-set-package:                Recovery.            (line  20)
* slime-restart-connection-at-point:     Multiple connections.
                                                              (line  70)
* slime-restart-inferior-lisp:           Recovery.            (line  11)
* slime-rgrep-system NAME REGEXP:        ASDF.                (line  25)
* slime-scratch:                         Scratch Buffer.      (line  17)
* slime-show-xref:                       Xref buffer commands.
                                                              (line  10)
* slime-space:                           Documentation.       (line  12)
* slime-sprof-browser-disassemble-function: slime-sprof.      (line  30)
* slime-sprof-browser-toggle:            slime-sprof.         (line  24)
* slime-sprof-browser-view-source:       slime-sprof.         (line  27)
* slime-sprof-report:                    slime-sprof.         (line  18)
* slime-sprof-start:                     slime-sprof.         (line  13)
* slime-sprof-stop:                      slime-sprof.         (line  16)
* slime-sprof-toggle-swank-exclusion:    slime-sprof.         (line  33)
* slime-switch-to-output-buffer:         REPL.                (line  23)
* slime-sync-package-and-default-directory: Recovery.         (line  15)
* slime-temp-buffer-quit:                slime-macroexpansion-minor-mode.
                                                              (line  22)
* slime-temp-buffer-quit <1>:            Multiple connections.
                                                              (line  65)
* slime-toggle-profile-fdefinition:      Profiling.           (line  11)
* slime-toggle-trace-fdefinition:        Disassembly.         (line  12)
* slime-trace-dialog:                    SLIME Trace Dialog.  (line  39)
* slime-trace-dialog-clear-fetched-traces: SLIME Trace Dialog.
                                                              (line  83)
* slime-trace-dialog-fetch-status:       SLIME Trace Dialog.  (line  76)
* slime-trace-dialog-fetch-traces:       SLIME Trace Dialog.  (line  79)
* slime-trace-dialog-toggle-trace:       SLIME Trace Dialog.  (line  26)
* slime-undefine-function:               Evaluation.          (line  52)
* slime-unprofile-all:                   Profiling.           (line  17)
* slime-untrace-all:                     Disassembly.         (line  17)
* slime-update-connection-list:          Multiple connections.
                                                              (line  61)
* slime-who-binds:                       Cross-reference.     (line  34)
* slime-who-calls:                       Cross-reference.     (line  22)
* slime-who-macroexpands:                Cross-reference.     (line  42)
* slime-who-references:                  Cross-reference.     (line  30)
* slime-who-sets:                        Cross-reference.     (line  38)
* slime-who-specializes:                 Cross-reference.     (line  45)


File: slime.info,  Node: Variable Index,  Prev: Command Index,  Up: Top

Variable and Concept Index
**************************

 [index ]
* Menu:

* ASCII:                                 Emacs-side customization.
                                                               (line 35)
* Character Encoding:                    Emacs-side customization.
                                                               (line 35)
* Compilation:                           Compilation.          (line  6)
* Compiling Functions:                   Compilation.          (line 12)
* Completion:                            Completion.           (line  6)
* Contribs:                              Loading Contribs.     (line  6)
* Contributions:                         Loading Contribs.     (line  6)
* Cross-referencing:                     Cross-reference.      (line  6)
* Debugger:                              Debugger.             (line  6)
* inferior-lisp-program:                 Installation.         (line 27)
* inferior-slime-mode-map:               inferior-slime-mode.  (line 17)
* Input History:                         Input Navigation.     (line  6)
* LATIN-1:                               Emacs-side customization.
                                                               (line 35)
* Listener:                              REPL.                 (line  6)
* load-path:                             Installation.         (line 27)
* Macros:                                Macro-expansion.      (line  6)
* Meta-dot:                              Finding definitions.  (line  6)
* Methods:                               Fancy Inspector.      (line  6)
* Plugins:                               Loading Contribs.     (line  6)
* Presentations:                         Presentations.        (line  6)
* Shortcuts:                             Shortcuts.            (line  6)
* sldb-hook:                             Hooks.                (line 17)
* slime-autodoc-mode-string:             slime-autodoc-mode.   (line 32)
* slime-autodoc-use-multiline-p:         slime-autodoc-mode.   (line 29)
* slime-completion-at-point-functions:   Emacs-side customization.
                                                               (line 17)
* slime-connected-hook:                  Hooks.                (line 12)
* slime-default-lisp:                    Multiple Lisps.       (line 17)
* slime-description-autofocus:           Temporary buffers.    (line 27)
* slime-filename-translations:           Emacs-side customization.
                                                               (line 28)
* slime-header-line-p:                   Banner.               (line 10)
* slime-lisp-implementations:            Multiple Lisps.       (line 13)
* slime-mode-hook:                       Hooks.                (line  6)
* slime-net-coding-system:               Emacs-side customization.
                                                               (line 35)
* slime-repl-wrap-history:               Input Navigation.     (line 33)
* slime-startup-animation:               Banner.               (line 10)
* slime-use-autodoc-mode:                slime-autodoc-mode.   (line 25)
* Stepping:                              Stepping.             (line  6)
* SWANK:*BACKTRACE-PRINTER-BINDINGS*:    Other configurables.  (line 42)
* SWANK:*COMMUNICATION-STYLE*:           Communication style.  (line  6)
* SWANK:*CONFIGURE-EMACS-INDENTATION*:   Other configurables.  (line  8)
* SWANK:*DEDICATED-OUTPUT-STREAM-PORT*:  Other configurables.  (line 69)
* SWANK:*GLOBAL-DEBUGGER*:               Other configurables.  (line 27)
* SWANK:*GLOBALLY-REDIRECT-IO*:          Other configurables.  (line 13)
* SWANK:*LOG-EVENTS*:                    Other configurables.  (line 74)
* SWANK:*MACROEXPAND-PRINTER-BINDINGS*:  Other configurables.  (line 42)
* SWANK:*SLDB-PRINTER-BINDINGS*:         Other configurables.  (line 42)
* SWANK:*SLDB-QUIT-RESTART*:             Other configurables.  (line 33)
* SWANK:*SWANK-PPRINT-BINDINGS*:         Other configurables.  (line 42)
* SWANK:*USE-DEDICATED-OUTPUT-STREAM*:   Other configurables.  (line 53)
* Symbol Completion:                     Completion.           (line  6)
* TAGS:                                  Finding definitions.  (line  6)
* TRAMP:                                 TRAMP.                (line  6)
* Typeout Frame:                         Typeout frames.       (line  6)
* Unicode:                               Emacs-side customization.
                                                               (line 35)
* UTF-8:                                 Emacs-side customization.
                                                               (line 35)
* xref:                                  Cross-reference.      (line  6)



Tag Table:
Node: Top285
Node: Introduction2526
Node: Getting started3807
Node: Platforms4081
Node: Downloading5279
Node: Git5780
Node: Git Incantations6798
Node: Installation7328
Node: Running8594
Node: Setup Tuning9137
Node: Basic customization9668
Node: Multiple Lisps10641
Node: Loading Swank faster13135
Ref: init-example14228
Node: SLIME mode14517
Node: User-interface conventions15115
Node: Temporary buffers15524
Node: Inferior-lisp16977
Node: Multithreading17802
Node: Key bindings19047
Ref: describe-key20513
Ref: describe-bindings20656
Ref: describe-mode20799
Ref: view-lossage20983
Node: Evaluation22178
Node: Compilation24083
Node: Completion26842
Node: Finding definitions27473
Node: Documentation28613
Node: Cross-reference30780
Node: Xref buffer commands32517
Node: Macro-expansion33076
Node: Disassembly34097
Node: Recovery34642
Node: Inspector35411
Node: Profiling37649
Node: Other38446
Node: Semantic indentation38699
Ref: Semantic indentation-Footnote-140830
Node: Reader conditionals40925
Node: Debugger41276
Node: Examining frames41916
Node: Restarts43048
Ref: sldb-quit43262
Node: Frame Navigation43689
Node: Stepping44389
Node: Miscellaneous45061
Node: Misc46000
Node: slime-selector46187
Node: slime-macroexpansion-minor-mode47995
Node: Multiple connections48850
Node: Customization51910
Node: Emacs-side customization52085
Ref: slime-completion-at-point-functions52778
Ref: slime-net-coding-system53669
Node: Hooks54342
Ref: slime-connected-hook54707
Node: Lisp-side55191
Node: Communication style55601
Node: Other configurables58163
Ref: *SLDB-QUIT-RESTART*59561
Node: Tips and Tricks62152
Node: Connecting to a remote lisp62377
Node: Setting up the lisp image63082
Ref: Setting up the lisp image-Footnote-164970
Ref: Setting up the lisp image-Footnote-265050
Node: Setting up Emacs65226
Ref: Setting up Emacs-Footnote-166062
Node: Setting up pathname translations66242
Node: Global IO Redirection67883
Node: Auto-SLIME68816
Node: Contributed Packages69237
Node: Loading Contribs69986
Node: REPL71946
Node: REPL commands73361
Node: Input Navigation74522
Node: Shortcuts76046
Node: slime-mrepl77542
Node: inferior-slime-mode78050
Node: Compound Completion78755
Ref: slime-complete-symbol*78932
Ref: Compound Completion-Footnote-182184
Node: Fuzzy Completion82308
Ref: slime-fuzzy-complete-symbol82561
Node: slime-autodoc-mode85853
Node: ASDF87271
Node: Banner89229
Node: Editing Commands89675
Node: Fancy Inspector91302
Node: Presentations92033
Ref: Presentations-Footnote-198589
Node: Typeout frames98830
Node: TRAMP99954
Node: Documentation Links100230
Node: Xref and Class Browser100655
Node: Highlight Edits101247
Node: Scratch Buffer101719
Ref: slime-scratch101881
Node: SLIME Trace Dialog102536
Node: slime-sprof106524
Node: SLIME Enhanced M-.107512
Node: slime-fancy107894
Node: Quicklisp108250
Node: Credits108778
Node: Key Index114382
Node: Command Index126172
Node: Variable Index141414

End Tag Table


Local Variables:
coding: utf-8
End:
